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ћатериалы и ссылки по различным разделам биомеханики


–еологи€ крови




Ћитература


  • ƒацок ќ.ћ., ∆олонский ≈.Ќ.,  изилова Ќ.Ќ. ƒвухфазна€ модель оседани€ эритроцитов в неоднородном поле сил //¬естник ’√ѕ”. Ц 2002. -є135. Ц —.36-45.
  • ƒацок ќ.ћ., ∆олонский ≈.Ќ.,  изилова Ќ.Ќ. јнализ оседани€ эритроцитов в неоднородном поле сил //Ёлектроника и св€зь. Ц 2002. - є15. Ц —.145-149.
  •  изилова Ќ.Ќ. ƒвухфазна€ модель оседани€ эритроцитов в поле центробежных сил и диагностический анализ седиментационных кривых //XXII —импозиум по реологии. ¬алдай. - 2004. Ц —.67.
  •  изилова Ќ.Ќ. јгрегаци€ в магнитном поле //—овременные проблемы биомеханики. ¬ып.9. –еологи€ крови и микроциркул€ци€.- ћ.-1994.-—.118-135.
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  •  изилова Ќ.Ќ. јгрегаци€ и седиментаци€ эритроцитов в магнитном поле //Ѕиофизика. - 1993. - “.38,N5. - —.849-855.
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  •  изилова Ќ.Ќ. Ёритроциты крови и гемодинамика в магнитном поле //ћеждунар.симпоз. по пробл.биомеханики и эндопротезировани€. “ез.докл. - »вано-‘ранковск.- 1993.- —.126-130.
  •  изилова Ќ.Ќ. ¬ли€ние некоторых физических полей на механические процессы в биологических ткан€х. ƒисс. ... канд.физ.-мат.наук. - ’арьков:’√”. - 1993. - 161~c.
  •  изилова Ќ.Ќ.   вопросу об устойчивости оседани€ эритроцитов //—б.науч.трудов аспирантов ’√”. ≈стественные науки. ‘изико-математические науки. - ’арьков: ќснова.-1992.-—.139-143.
  •  изилова Ќ.Ќ.   вопросу об устойчивости оседани€ эритроцитов как намагничивающихс€ частиц // ћеждунар.матем.конф."Ћ€пуновские чтени€".“ез.докл. - ’арьков. - 1992. - —.75-77. <
  •  изилова Ќ.Ќ. ќ вли€нии радиального движени€ эритроцитов на их оседание в трубке во внешнем магнитном поле //»зв.јЌ ———–. ћ∆√.-1991,N5.-—.120-129.
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  •  изилова Ќ.Ќ. “еоретическое и экспериментальное исследование оседани€ эритроцитов в поле центробежных сил. //VIII ¬серос. конф. по биомеханике. “езисы докладов. Ќижний Ќовгород: »ѕ‘ –јЌ . Ц 2006. - —.44-46.
  •  изилова Ќ.Ќ. ”стойчивость оседани€ эритроцитов крови в посто€нном магнитном поле //»зв.јЌ ———–. ћ∆√.-1989,N6.-—.66-70.
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  •  изилова Ќ.Ќ., –егирер —.ј. ћагнитогидродинамические эффекты при движении крови //Ѕиофизика.-1991.-“.36,N1.-—.147-153.
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  •  изилова Ќ.Ќ., „еревко ¬.ј. ћоделирование агрегации и оседани€ частиц суспензий в трубках в поле гравитационных и центробежных сил. //ћатериалы XV ћеждунар. конф. по механике и современным прикладным программным системам. Ц ћ.: ¬узовска€ книга. - 2007. - —.264-265.
  •  изилова Ќ.Ќ., „еревко ¬.ј. »сследование оседани€ эритроцитов в однородном и неоднородном поле сил: эксперименты и трехфазна€ модель суспензии агрегирующих частиц. // Ѕиомеханика-2010. “езисы докладов X ¬сероссийской конференции. —аратов. Ц 2010. Ц —.90-91.
  •  изилова Ќ.Ќ., „еревко ¬.ј. »сследование оседани€ эритроцитов в однородном и неоднородном поле сил: эксперименты и трехфазна€ модель суспензии агрегирующих частиц. // Ѕиомеханика-2010. “езисы докладов X ¬сероссийской конференции. —аратов. Ц 2010. Ц —.90-91.
  •  ≥з≥лова Ќ.ћ., „еревко ¬.ќ. —пос≥б д≥агностики медикаментозноњ та харчовоњ алерг≥њ. ѕатент на корисну модель. ”крпатент. «а€ва U201009671 в≥д 02.08.2010 р.
  •  изилова Ќ.Ќ., „еревко ¬.ј. ћоделирование оседани€ эритроцитов крови // Ќовые математические модели механики сплошных сред: построение и изучение, 23Ц28 апрел€ 2009 г. “езисы докладов. Ќовосибирск: »нститут гидродинамики им. ћ.ј. Ћаврентьева —ќ –јЌ. Ц 2009. Ц —. 74-75.
  •  изилова Ќ.Ќ., „еревко ¬.ј. “еоретическое и экспериментальное исследование оседани€ эритроцитов как агрегирующихс€ частиц в неоднородном поле сил. // —б.трудов XIII ћеждунар.конф. Ђ—овременные проблемы механики сплошных средї. –остов-на-ƒону. - 2009. - т.2. - —.98-102.
  •  изилова Ќ.Ќ., „еревко ¬.ј. √равитационна€ седиментаци€ эритроцитов: эксперименты и теоретическа€ модель. // ¬естник ’Ќ”. —ер. ћатематика, прикладна€ математика, механика. Ц 2009. - є875. Ц —.80-94.
  •  изилова Ќ.Ќ., „еревко ¬.ј. »сследование показателей оседани€ эритроцитов крови в норме и патологии // 24 симпозиум по реологии. “езисы докладов. ћ.: »нститут нефтехимического синтеза –јЌ. 2008.- —.59.
  • –егирер —.ј.,  изилова Ќ.Ќ., Ћогвенков —.ј., Ћосев ≈.—., ћоисеева ».Ќ. јнализ вли€ни€ внешних физических полей на биомеханические характеристики клеток //ќтчет Ќ»» ћеханики ћ√” є4134. - ћ.:»зд-во ћ√”.-1991, 95 c.
  • —ивакова Ќ.Ќ. ¬ли€ние магнитного пол€ на оседание агрегирующих слабонамагничивающихс€ частиц //»зв.јЌ ———–. ћ∆√.-1987,N5.-—.77-85.
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  • „еревко ¬.ј.,  изилова Ќ.Ќ. “еоретическое и экспериментальное исследование оседани€ эритроцитов крови как агрегирующих частиц в неоднородном поле сил. // “езисы докладов XIII ћеждунар.конф. Ђ—овременные проблемы механики сплошных средї. –остов-на-ƒону. - 2009. - —.56-57.
  • „еревко ¬.ј.,  изилова Ќ.Ќ. ƒиагностический анализ кривых оседани€ эритроцитов: экспериментальные данные и теоретическа€ модель. //—борник материалов международной научной школы-конференции Ђ“араповские чтени€ї. ’арьков. - 2008. Ц —.142-145.
  • „еревко ¬.ј.,  изилова Ќ.Ќ. »сследование оседани€ и агрегации эритроцитов с учетом вли€ни€ неоднородного пол€ центробежных сил // Ђ—учасн≥ проблеми математики та њњ застосуванн€ у природничих науках иа ≥нформац≥йних технолог≥€хї. “ези науковоњ конференц≥њ дл€ студент≥в та аспирант≥в. ’арк≥в. Ц 2010. - с.64-65.
  • „еревко ¬.ј.,  изилова Ќ.Ќ. ћатематические модели агрегации частиц в биоколлоидах и суспезни€х // ”ченый, ”читель, „еловек.   85-летию со дн€ рождени€ ».≈.“арапова. Ц ’арьков: Ќовое слово. Ц 2011. Ц —.299-320.
  • „еревко ¬.ј.,  изилова Ќ.Ќ. ћеханизмы агрегации и их вли€ние на оседание частиц агрегирующих суспензий в неоднородном внешнем поле // —овременные проблемы математики и еЄ приложени€ в естественных науках и информационных технологи€х. —б.тезисов междунар. конф. - ’арьков. Ц 2011. Ц C. 111-112.
  • Aarts P.A., van den Broek S.A., Prins G.W., Kuiken G.D., Sixma J.J., Heethaar R.M. Blood platelets are concentrated near the wall and red blood cells, in the center in flowing blood // Arteriosclerosis.-1988.-Vol.8,N6.-P.819-824.
  • Aarts P.A.M.M., Bolhuis P.A., Sakariassen K.S., Heethaar R.M., Sixma J.J. Red blood cell size is important for adherence of blood platelets to artery subendothelium // Blood.-1983.-Vol.62.-P.214-217.
  • Aarts P.A.M.M., Heethaar R.M., Sixma J.J. Red blood cell deformability influences platelets-vessel wall interaction in flowing blood // Blood.-1984.-Vol.64,N6.-P.1228-1233.
  • Aarts P.A.M.M., Heuvelmans J.H.A., Goslinga H. Blood viscosity evaluation by regression analysis to differentiate for hematocrit // Clin.Hemorheol.-1989.-Vol.9,N4.-P.583-592.
  • Aarts P.A.M.M., Steendijk P., Sixma J.J., Heethaar R.M. Fluid shear as a possible mechanism for platelet diffusivity in flowing blood // J.Biomech.-1986.-Vol.19,N10.-P.799-805.
  • Aarts P.A.M.M., Van den Briek S.A.T., Prins G.W., Kuiken G.D.C., Sixma J.J., Heethaar R.M. Blood platelets are concentrated near the wall and the red blood cells, in the center in flowing blood //Arteriosclerosis.-1988.-Vol.8.-P.819-824.
  • Abbate R., Favilla S., Boddi M., Costanzo G., Prisco D. Factors influencing platelet aggregation in whole blood //Amer J Clin Pathol.-1986.-Vol.86,N1.-P.91-96.
  • Abbott J.R., Tetlow N., Graham A.L., Altobelli S.A., Fukushima E., Mondy L.A., Stephens T.S. Experimental observations of particle migration in concentrated suspensions: Couette flow // J.Rheol.-1991.-Vol.35,N5.-P.773-795.
  • Abe K., Takano Y., Oka S. A note on a theoretical stady of erythrocyte sedimentation in inclined tubes //Biorheology. - 1986. - Vol.23. - P.17-23.
  • Abel G.-R., Thurston G.B. Changes of rheo-optical aggregation kinetics due to blood confinement geometry //Biorheology. - 1989.-Vol.26,N3.-P.594.
  • Abts L., Richardson P.D., Schmid-Schonbein H. Ultrasound detection of aggregation of red cells in blood flow // Proc.17th New Engl.Bioeng.Confer.-1979.-P.288-291.
  • Ackmann J.J., Seitz M.A., Dawson C.A., Hause L.L. Specific impedance of canine blood // Ann.Biomed.Eng.-1996.-Vol.24,N1.-P.58-66.
  • Adams A.L., Vroman L. Effects of gravity and the presence of erythrocytes on platelet and granulocyte adhesion in stagnant blood // Biorheology.-1979.-Vol.16,N1/2.-P.51-55.
  • Adams G.A., Brown S.J., McIntire L.V., Eskin S.G., Martin R.R. Kinetics of platelet adhesion and thrombus growth // Blood.-1983.-Vol.62,N1.-P.69-74.
  • Adams G.A., Strong A.B. The effect of drag reducing agents on blood platelet deposition // CANCAM 77. Proc.6th Can.Congr.Appl.Mech.Vol.2. - Vancouver.-1977.-P.917-918.
  • Adams K.H. A theory for the shape of the red blood cell // Biophys.J.-1973.-Vol.13,N10.-P.1049-1053.
  • Adams R.A., Evans S.-A., Kooshesh F., Jones J.G. The effects of temperature on the filtration of diluted blood through 3 mcm and 5 mcm filters // Biorheology.-1995.-Vol.32,N6.-P.643-653.
  • Adic M., Pajkovska M., Pop-Stefanova A. Plasma viskoznost i krvni pritisak: [Ref.] 10 Kongr. med. biohem. Jugosl., Budva,13-16 okt.,1996 // Jugosloven. med. biohem.-1996.-Vol.15,N4.-P.228.
  • Adjizian J.C. L'hemorheologie: interet en biologie clinique // Techn.et Biologie.-1986,N2.-P.118-119.
  • Adjizian J.C., Droulle C., Osterman G., Pignon B., Potron G. Comparative interest of two coaxial viscometers: Ecktacytometer and Low Shear 30 // Biorheology.-1984,NSuppl.1.-P.95-97.
  • Adjizian J.C., Pignon B., Poynard A., Ostermann G., Potron G. Clinical applications to the ektacytometer // Clin.Hemorheol.-1984.-Vol.4.-P.245-254.
  • Adler P.M. A study of disaggregation effects in sedimentation // AIChE Journal.-1979.-Vol.25,N3.-P.487-493.
  • Adolph R., Vorp D.A., Steed D.L., Webster M.W., L.Kameneva M.V., Watkins S.C. Cellular content and permeability of intraluminall thrombus in abdominal aortic aneurysm // J.Vasc.Surg.-1997.-Vol.25.-P.916-926.
  • Agathos S.N., Griffith A.L., Uauy-Dagach R., Young V.R., Catsimpoolas N. Transient velocity sedimentation at unit gravity of human erythrocytes // Anal. Biochem.-1977.-Vol.81,N1.-P.143-150.
  • Aggelopoulos E.G., Karabetsos E., Koutsouris D. In vitro estimation of red blood cells' aggregation using ultrasound Doppler techniques // Clin Hemorheol Microcirc.-1997.-Vol.17,N2.-P.107-115.
  • Agnoli G.L. Contributo fisico-matematico allo studio del problema del moto del sangue nell'aorta // Atti Accad. sci. Ist. Bologna. Cl. sci. fis. Rend.-1977.-Vol.5,N1.-P.157-158.
  • Agosti R., Clivati A., D'Ettorre M., Ferrarini F., Somazzi R., Longhini E. Hematocrit dependence of erythrocyte aggregation // Clin.Hemorheol.-1988.-Vol.8,N6.-P.913-924.
  • Agosti R., D'Ettorre M., Cherubini P., Clivati A., Bozzoni M., Longhini E. New aspects of erythrocyte aggregation // Clin.Hemorheol.-1988.-Vol.8,N5.-P.603-620.
  • Ahmad N., Chaturani P., Puniyani R.R. On whole blood viscosity of hypertension patients through Quemada's model // Biorheology.-1999.-Vol.36,N1-2.-P.130.
  • Ahuja A.S. Acoustical properties of blood: a look at the basic assumptions // Med Phys.-1974.-Vol.1,N6.-P.311-316.
  • Ahuja A.S. Augmentation of heat and mass transfer in laminar flow of suspensions: a correlation of data // J.Appl.Physiol.-1980.-Vol.51,N1.-P.791-795.
  • Ahuja A.S. Heat transport in laminar flow of erythrocyte suspensions // J Appl Physiol.-1975.-Vol.39,N1.-P.86-92.
  • Ahuja A.S. Measurement of thermal conductivity of stationary blood by unsteady-state method // J.Appl.Physiol.-1974.-Vol.37,N5.-P.765-770.
  • Ahuja A.S. Prediction of ultrasonic scattering in blood: an historical note // Ultrasound Med Biol.-1979.-Vol.5,N1.-P.96-97.
  • Ahuja A.S. Reflection coefficients at collagen interfaces in soft tissues // Ultrason Imaging.-1979.-Vol.1,N4.-P.346-355.
  • Ahuja A.S., Bugliarello G. A note on the compressibility of blood // Biorheology.-1971.-Vol.7,N4.-P.199-203.
  • Ahuja A.S., Hendee W.R. Effects of red cell shape and orientation on propagation of sound in blood // Med Phys.-1977.-Vol.4,N6.-P.516-520.
  • Ahuja A.S., Hendee W.R. Thermal design of a heat exchanger for heating or cooling blood // Phys.Med.Biol.-1978.-Vol.23.-P.937-951.
  • Ahuja A.S., Hendee W.R., Carson P.L. Transport phenomena in laminar flow of blood //Phys Med Biol.-1978.-Vol.23,N5.-P.928-936.
  • Aigbe A., Famodu A.A. Haemorheological and fibrinolytic activity in hypertensive Nigerians //Biorheology. - 1999. - Vol.36,N1-2. - P.143.
  • Ajmani R.S., Rifkind J.M. Plasma viscosity, fibrinogen and hematocrit profile with progression of age // Int.J.Microcirc.: Clin Exper.-1996.-Vol.16,Nsuppl.1.-P.142.
  • Akay G. Mass transfer in time dependent blood flow // Rheology.Vol.3. - New York;London.-1980.-P.489-494.
  • Akay G. Stress-induced diffusion and chemical reaction in nonhomogeneous velocity gradient fields // Polym.Eng.Sci.-1982.-Vol.22,N13.-P.798-804.
  • Akay G., Kaye A. Numerical solution of time-dependent stratified two-phase flow of micropolar fluids and its application to flow of blood through fine capillaries // Int.J.Eng.Sci.-1985.-Vol.23,N3.-P.265-276.
  • Akeson S.P., Mel H.C. Deformability and other rheological interactions of red blood cells in electronic cell sizing // Biorheology.-1986.-Vol.23,N1.-P.1-15.
  • Akopov S.E., Gabrielian E.S., Gannushkina I.V., Konorova I.L. A new method of correction with high molecular polymer additions of blood aggregant properties in microembolic syndrome (experimental research) // Constituent Congr.Int.Soc.fror Pathophysiol.-Moscow.-1991.-P.105.
  • Al-Assaf S., Meadows J., Phillips G.O., Williams P.A. The application of shear and extensional viscosity measurements to assess the potential of hylan in viscosupplementation // Biorheology.-1996.-Vol.33,N4-5.-P.319-332.
  • Alanen A., Kallio T., Lehto I., Wiernsperger N. The effect of naftidrofuryl on red blood cell aggregation detected in vitro with ultrasound // J Cardiovasc Pharmacol.-1990.-Vol.16,NSuppl 3.-P.S33-S35.
  • Albrecht K.H., Gaehtgens P., Pries A., Heuser M. The Fahraeus effect in narrow capillaries (i.d. 3.3 to 11.0 mcm) // Microvasc.Res.-1979.-Vol.18,N1.-P.33-47.
  • Alkhamis T.M., Beissinger R.L. Surface and bulk effects on platelet adhesion and aggregation during simple (laminar) shear flow of whole blood // J Biomater Sci Polym Ed.-1994.-Vol.6,N4.-P.343-358.
  • Alkhamis T.M., Beissinger R.L., Chediak J.R. Artificial surface effect on red blood cells and platelets in laminar shear flow // Blood.-1990.-Vol.75,N7.-P.1568-1575.
  • Alkhamis T.M., Beissinger R.L., Chediak J.R. Red blood cell effect on platelet adhesion and aggregation in low-stress shear flow. Myth or fact? // ASAIO Trans.-1988.-Vol.34,N3.-P.868-873.
  • Alkhanis T.m., Beissinger R.L., Chedian J.R. Effect of red blood cells on platelet adhesion and aggregation in low-stress shear flow // ASAIO Trans.-1987.-Vol.33,N3.-P.636-642.
  • Allard C., Mohandas N., Bessis M. Red cell deformability changes in hemolytic anemias estimated by diffractometric methods (ektacytometry) // Blood Cells.-1977.-Vol.3,N1.-P.209-221.
  • Allard L., Cloutier G. Power Doppler ultrasound scan imaging of the level of red blood cell aggregation: an in vitro study // J Vasc Surg.-1999.-Vol.30,N1.-P.157-168.
  • Allen S.J., De Silva C.N., Kline K.A. Blood flow: A study in the theory of deformable suspensions in fluids // 7th Int.Conf.Med.Biol.Eng.- Stockholm.-1967.
  • Allen S.J., De Silva C.N., Kline K.A. Theory of simple deformable directed fluids // Phys. Fluids.-1967.-Vol.10,N12.-P.2551-2555.
  • Allen S.J., Kline K.A., Ling C.C. Transient shear flow of fluid with deformable microstructure // Acta Mech.-1973.-Vol.18,N1-2.-P.1-20.
  • Alonso C., Pries A., Gaehtgens P. Radial cell distribution and flow resistance due to aggregation and sedimentation during slow flow of blood in small tubes at varying inclination // Biorheology.-1989.-Vol.26,N3.-P.549.
  • Alonso C., Pries A.R., Gaehtgens P. Time-dependent rheological behavior of blood at low shear in narrow vertical tubes // Am J Physiol.-1993.-Vol.265,N2 Pt 2.-P.H553-H561.
  • Alonso C., Pries A.R., Gaehtgens P. Time-dependent rheological behaviour of blood flow at low shear in narrow horizontal tubes // Biorheology.-1989.-Vol.26,N2.-P.229-246.
  • Alonso C., Pries A.R., Kiesslich O., Lerche D., Gaehtgens P. Transient rheological behavior of blood in low-shear tube flow: Velocity profiles and effective viscosity // Amer.J.Physiol.-1995.-Vol.268,N1,pt.2.-P.H25-H32.
  • Alonso S.B., Bregni C., Deiber J.A. Una ecuacion reologica para sangre humana normal // Acta Farm.Bonaerense.-1986.-Vol.5,N1.-P.3-10.
  • Alpet Y., Banerjee R. Magnetic susceptibility measurements of deoxygenated hemoglobin and isolated chains // Biochim.et biophys.acta.-1975.-Vol.415.-P.144-154.
  • Altankov G., Serafimov-Dimitrov V. Adhesive properties of blood cells // Haematologia.-1990.-Vol.23,N4.-P.239-248.
  • Altman P.L., Dittmer D.S. (eds.) Blood and Other Body Fluids. - Bethesda, Md: FASEB-1971.
  • Altshuler T.L., Altshuler J.H. Blood clotting time and clotting strength measured by a hemotensiometer // IEEE Trans.Biomed.Eng.-1973.-Vol.BME-20,N2.-P.152-154.
  • Aman J., Sandhagen B., Berne C., Ewald U., Tuvemo T. Haemorheological changes in response to insulin-induced hypoglycaemia in young insulin-dependent diabetic patients and healthy control subjects // Clin.Hemorheol.-1989.-Vol.9,N4.-P.603-614.
  • Amara F., Simpson L.O., Ghanern Y., Abdel-Aati T. Detailed study of erythrocytes shape in Schistosomiasis // Biorheology.-1999.-Vol.36,N1-2.-P.122.
  • Amin T.M., Sirs J.A., Turner P. Measurement of erythrocyte deformability using a stroboscopic recording centrifuge // Phys.Med.Biol.-1983.-Vol.28,N3.-P.269-275.
  • Amirante A., Bertoluzzo S.M., Bertoluzzo M.G.. Rigatsuo R., Quattrin F.E., Spengier M.I. Erythrocyte aggregation of red cells incubated in human serum albumin denatured by radiation // Biorheology.-1999.-Vol.36,N1-2.-P.103-104.
  • Anadere I., Chmiel H., Heimburg P. Viscoelastic parameters of blood in patients with myocardial infarction compared to normal donors // Rheol.Acta.-1982.-Vol.21.-P.611-613.
  • Anadere I., Chmiel H., Witte S. Determination of the normal values for viscoelastic blood parameters // Proc.3. Congress of German Soc.for Clin.Hemorheol.-1984.
  • Anadere J., Chmiel H., Hess H., Thurston G.B. Clinical blood rheology // Biorheology.-1979.-Vol.16.-P.171-178.
  • Anderson G.H., Hellums J.D., Moake J., Alfrey C.P.J. Platelet response to shear stress: changes in serotonin uptake, serotonin release, and ADP-induced aggregation // Thromb.Res.-1978.-Vol.13.-P.1039-1047.
  • Anderson N.M., Sekely P. Light-absorbing and scattering properties of non-hemolysed blood // Phys.Med.Biol.-1967.-Vol.12,N2.-P.173-184.
  • Anderson N.M., Sekely P. Reflection and transmission of light by thin films of nonhaemolysed blood // Phys.Med.Biol.-1967.-Vol.12,N2.-P.185-200.
  • Anderson N.M., Sekely P. Studies on the light transmission of nonhaemolysed whole blood // J.Lab.Clin.Med.-1965.-Vol.65,N1.-P.153-166.
  • Andrews N.P., Gralnick H.R., Merryman P., Vail M., Quyyumi A.A. Mechanisms underlying the morning increase in platelet aggregation: a flow cytometry study // J Am Coll Cardiol.-1996.-Vol.28,N7.-P.1789-1795.
  • Anegawa T., Shio H., Yasuda Y., Fujimoto N., Kameyama M. Erythrocyte deformability as measured with a newly developed nickel mesh // Clin.Hemorheol.-1987.-Vol.7,N6.-P.803-810.
  • Angelsen A.G. A theoretical study of the scattering of ultrasound from blood // IEEE Trans.Biomed.Eng.-1980.-Vol.BME27,N2.-P.61-67.
  • Ansari R.R., Dhadwal H.S., Cheung H.M., Meyer W.V. Microemulsion characterization by the use of a noninvasive backscatter fiber optic probe // Applied Optics.-1993.-Vol.32,N21.-P.3822-3827.
  • Ansari R.R., Dhadwal H.S., Suh K.I. Flocculation and aggregation in a microgravity environment (FAME) // 2nd Microgravity Fluids Physics Conference, June 21-23, 1994, Cleveland, Ohio, Paper # 20.-1994.
  • Antaki James F., Burgreen Greg W., Yeleswarapu Krishna K., Kameneva Marina V. Towards a unified model for shear-induced red blood cell damage // Ann. Biomed. Eng.-1997.-Vol.25,NSuppl.1.-P.23.
  • Antonini G., Guiffant G., Quemada D. Effet du mouvement induit des hematies sur le transport plaquettaire // Biorheology.-1975.-Vol.12,N2.-P.133-135.
  • Antonini G., Guiffant G., Quemada D., Dosne A.M. Estimation of platelet diffusivity in flowing blood // Biorheology.-1978.-Vol.15,N2.-P.111-117.
  • Antonini G., Guiffaut G., Quemada D. Transport de masse induit par la rotation d'une particul dans un fluide en movement // J.Chem.Physique.-1974.-Vol.71.-P.1123.
  • Antonova N. Hemorheological parameters in norm and pathology // Curr.Probl.Rheol.,Biorheol.,Biomech.-Moscow.-1992.-P.64.
  • Antonova N., Velcheva I., Boeva D., Marinova T. Comparative plasma viscosity measurements in healthy subjects // Clin. Hemorheology.-1995.-Vol.15,N1.-P.45-52.
  • Antonova N., Velcheva I., Boeva D., Marinova T. Plasma viscosity measurements of capillary and rotational viscometers // Curr.Probl.Rheol.,Biorheol.,Biomech.-Moscow.-1992.-P.65.
  • Anwar M.A., Rampling M.W. Comparative hemorheology of five healthy, ethnixcally diverse groups: results of a pilot study // Clin.Hemorheol.-1994.-Vol.14,N5.-P.697-708.
  • Apelblat A., Bourgoin D., Bureau M., Healy J.C., Joly M. Transient behaviour and hysteresis of human whole blood in Couette flow // Proc.7th Int.Congr.Rheol. Gothenburg.-1976.-P.570-571.
  • Arai K., Lino M., Shio H., Uyesaka N. Further investigations of red cell deformability with nickel mesh // Biorheology.-1990.-Vol.27,N1.-P.47-66.
  • Arakawa M., Kondo T., Tamamushi B. Flow properties of microcapsule suspensions as a model of blood // Biorheology.-1975.-Vol.12,N1.-P.57-66.
  • Ariman T. Heat transfer in blood // Proc.26th Annu.Conf.Eng.Med. and Biol., Minneapolis, Minn.,1973.Vol. 15.-Arlington, Va.-1973.-P.238.
  • Ariman T. Heat transfer in blood rheology // CANCAM 77.Proc. 6th Can. Congr. Appl. Mech., Vancouver, l977. Vol.2.- Vancouver s.a.,.-1977.-P.919-920.
  • Ariman T. Micromechanics of blood flow // Proc. 28th Annu. Conf. Eng. Mech. and Biol., New Orleans, La, 1975. Vol. 17. Chevy Chase, Md.-1975.-P.227.
  • Ariman T. On the analysis of blood flow // J.Biomech.-1971.-Vol.4,N3.-P.185-192.
  • Ariman T. On thermal hemolysis and heat transfer in blood rheology (Abstr) // Biorheology.-1978.-Vol.15,N5/6.-P.479.
  • Ariman T., Turk M.A., Sylvester N.D. A micro continuum model of blood // CANCAM 73. C.r. 4eme congr.can.mec.appl.,Montreal,1973.-Montreal.-1973.-P.837-838.
  • Ariman T., Turk M.A., Sylvester N.D. A microcontinuum model of blood with deformable cells // 1973 Biomech.Symp.Properties of Biol.Fluids and Solids: Mech.of Tissues and Organs. - New York.-1973.-P.5-6.
  • Ariman T., Turk M.A., Sylvester N.D. A microcontinuum model of blood with defomable cells // ASME Biomech Symp.-1973.
  • Ariman T., Turk M.A., Sylvester N.D. Application of microcontinuum fluid mechanics // Int.J.Eng.Sci.-1974.-Vol.12,N4.-P.273-293.
  • Ariman T., Turk M.A., Sylvester N.D. Application of microcontinuum fluid mechanics // Int.J. Engng Sci.-1974.-Vol.12,N4.-P.273-293.
  • Ariman T., Turk M.A., Sylvester N.D. Blood flow theory and experiment // Proc. 25th ACEMB.-1972.-P.213.
  • Ariman T., Turk M.A., Sylvester N.D. Microcontinuum fluid mechanics.- A review // Int.J. Engng Sci.-1973.-Vol.11,N8.-P.905-930.
  • Ariman T., Turk M.A., Sylvester N.D. On steady and pulsatile flow of blood // Trans.ASME.Ser.E.-1974.-Vol.41,N1.-P.1-7.
  • Ariman T., Turk M.A., Sylvester N.D. On the tim e dependent blood flow // Lett. Appl. Eng. Sci.-1974.-Vol.2,N1.-P.21-36.
  • Ariman T., Turk M.A., Sylvester N.D. Suspension rheology - a microcontinuum approach // Rheol. acta.-1975.-Vol.14,N5.-P.385-393.
  • Ariman T., Turk M.A., Sylvester N.D. Suspension rheology - a microcontinuum approach // Rheol.Acta.-1975.-Vol.14,N5.-P.385-393.
  • Aristov S.N., Skul'sky O.I. Viscoelastic effects of blood flow in nondeformable capillary // РЃб.¶.ѓЃ °®Ѓ•е ≠®™•.-1999.-Vol.3,N4.-P.24-33.
  • Armitage W.J., Parmar N., Hunt C.J. The effects of osmotic stress on human platelets // J.Cell.Physiol.-1985.-Vol.123,N2.-P.241-248.
  • Armstrong J.K. Meiselman H.J., Fisher T.C. The effects of poloxamers and poly(ethylene glycol) on red blood cell aggregation // Biorheology.-1999.-Vol.36,N1-2.-P.53-54.
  • Armstrong J.K., Leharne S.A., Fisher T.C., Chowdhry B.Z., Meiselman H.J. The effects of poloxamer on erythrocyte aggregation as a function of temperature // Biorheology.-1995.-Vol.32,N2-3.-P.207.
  • Armstrong J.K., Meiselman H.J., Fisher T.C. Covalent binding of poly(ethylene glycol) (PEG) to the surface of red blood cells inhibits aggregation and reduces low shear blood viscosity // Am J Hematol.-1997.-Vol.56,N1.-P.26-28.
  • Armstrong J.K., Meiselman H.J., Fisher T.C. Poloxamer 188 (rheothrix injection) inhibits RBC-induced platelet aggregation // Biorheology.-1995.-Vol.32,N2-3.-P.227.
  • Armstrong J.K., Meiselman H.J., Fisher T.C. Evidence against macromolecular "bridging" as the mechanism of red blood cell aggregation induced by non-ionic polymers // Biorheology.-1999.-Vol.36,N1-2.-P.164-165.
  • Armstrong J.K., Meiselman H.J., Fisher T.C. Modulation of erythrocyte aggregation and blood viscosity by covalent attachment of poloxamers // Biorheology.-1999.-Vol.36,N1-2.-P.165.
  • Armstrong J.K., Meiselman H.J., Fisher T.C. Evidence against macromolecular "bridging" as the mechanism of red blood cell aggregation induced by nonionic polymers // Biorheology.-1999.-Vol.36,N5-6.-P.433-437.
  • Armstrong J.K., Meiselman H.J., Fisher T.C. Evidence against macromolecular "bridging" as the mechanism of red blood cell aggregation induced by non-ionic polymers // Biorheology.-1999.-Vol.36,N5-6.-P.433-437.
  • Aroesty J., Gross J.F. Pulsatile flow in small blood vessels. 1. Casson theory // Biorheology.-1972.-Vol.9,N1.-P.33-43.
  • Aroesty J., Gross J.F. The mathematics of pulsatile flow in small vessels. I. Casson theory // Microvasc.Res.-1972.-Vol.4,N1.-P.1-12.
  • Artmann G.M. Microscopic photometric quantification of stiffness and relaxation time of red blood cells in a flow chamber // Biorheology.-1995.-Vol.32,N5.-P.553-570.
  • Artmann G.M., Li A., Ziemer J., Schneider G., Sahm U. A photometric method to analyze induced erythrocyte shape changes // Biorheology.-1996.-Vol.33,N3.-P.251-265.
  • Asano M. Proceedings: 101. On plasma skimming observed in cutaneous microcirculation in man and rabbits // Nippon Seirigaku Zasshi.-1973.-Vol.35,N8.-P.424-425.
  • Aspelin P., Schmid-Schonbein H. Effect of ionic and non-ionic contrast media on blood rheology // Bibl.anat.-1977.-Vol.16.-P.517-521.
  • Atabek H.B. Development of flow in the inlet lenght of a circular tube starting from rest // ZAMP.-1962.-Vol.13.-P.417-430.
  • Atabek H.B., Chang C.C. Oscillatory flow near the entry of a circular tube // ZAMP.-1961.-Vol.12.-P.185-201.
  • Ataullakhanov F.I., Guria G.T., Sarbash V.I., Volkova R.I. Spatiotemporal dynamics of clotting and pattern formation in human blood // Biochim Biophys Acta.-1998.-Vol.1425,N3.-P.453-468.
  • Atherton A., Born G.V.R. Relationship between the velocity of rolling granulocytes and that of blood flow in venules // J.Physiol.-1973.-Vol.223.-P.157-165.
  • Atsumi K., Maekawa M., Ota K., (eds.) Progress in Artificial Organs - 1983. - Cleveland,Oh.: ISAO Press-1984.
  • Atteld K., Gadischke J., Reininger A., Grunert K., Schmidt S. Thrombus formation and flow // Int. J. Artif. Organs.-1994.-Vol.17,N8.-P.435.
  • Ault K.A., Rinder H.M., Mitchell J.G., Rinder C.S., Lambrew C.T., Hillman R.S. Correlated measurement of platelet release and aggregation in whole blood // Cytometry.-1989.-Vol.10,N4.-P.448-455.
  • Auzerais F.M., Jackson R., Russel W.B., Murphy W.F. The transient settling of stable and flocculated dispersions // J.Fluid Mech.-1990.-Vol.221.-P.613-639.
  • Aydogan S., Yerer M., Durak M. Methemoglobin formation in human blood incubated with sodiumnitroprusside as a nitric oxide donor // Int.Conf.Biorheol.and School for Young Scientists.-Sofia.-2000.-P.126-129.
  • Azelvandre F., Oiknine C. Effet Fahraeus et effet Fahraeus-Lindqvist: resultats experimentaux et models theoriques // Biorheology.-1976.-Vol.13,N6.-P.325-336.
  • Bacher R.P., Williams M.C. Hemolysis in capillary flow // J.Lab.Clin.Med.-1970.-Vol.76,N?.-P.485-496.
  • Back L.H. Theoretical investigation of platelet embolus production in atherosclerotic coronary arteries // Math.Biosci.-1975.-Vol.25,N3/4.-P.273-307.
  • Back M.R., Cho Y.I., Crawford D.W., Back L.H. Fluid particle motion and lagrangian velocities for pulsatile flow through a femoral artery branch model // Trans.ASME: J.Biomech.Eng.-1987.-Vol.109,N1.-P.94-101.
  • Baeckstrom P., Folkow B., Kendrick E., Lofving B., Oberg B. Effect of vasoconstriction on blood viscosity in vivo // Acta Physiol.Scand.-1971.-Vol.81,N3.-P.376-384.
  • Bagge U., Blixt A., Strid K. The initiation of postcapillary margination of leukocytes: studies in vitro on the influence of erythrocyte concentration and flow velocity // Int.J.Microcirc.:Clin.Exp.-1983.-Vol.2.-P.215.
  • Bagnold R.A. Experiments on gravity-free dispersion of large solid spheres in a Newtonian fluid under shear // Proc.Roy.Soc.A.-1954.-Vol.225.-P.49-63.
  • Bailey D.G. Migration of discs on Couette flow and application to blood oxygenator design: Mech.Eng.Thesis MIT-1975.
  • Baker M., Wayland H. On-line volume flow rate and velocity profile measurement for blood in microvessels // Microvasc.Res.-1974.-Vol.7,N1.-P.131-143.
  • Baker R.F., Clark L.J. Assay of red cell membrane deformability with some applications // Biomed.Biochim.Acta.-1983.-Vol.42,N11/12.-P.S91-S96.
  • Balasubramanian V., Grusin N.K., Bucher R.W., Turitto V.T., Slack S.M. Residence-time dependent changes in fibrinogen adsorbed to polymeric biomaterials // J Biomed Mater Res.-1999.-Vol.44,N3.-P.253-260.
  • Balasubramanian V., Hall C.L., Shivashankar S., Slack S.M., Turitto V.T. Vascular cell attachment and procoagulant activity on metal alloys // J Biomater Sci Polym Ed.-1998.-Vol.9,N12.-P.1349-1359.
  • Balduini C.L., Bertolino G., Noris P., Ascari E. The effect of red cells on platelet aggregation: a study with the electronic whole blood aggregometer // Scand J Clin Lab Invest.-1988.-Vol.48,N4.-P.337-340.
  • Balogh B.M., Pap E., Imre S.G., Szikszai Z., Joo F. Change of deformability and lipid peroxidation of sheep erythrocytes caused by homogeneous catalytic hydrogenation // Biorheology.-1999.-Vol.36,N1-2.-P.188.
  • Balow J.E. Plasmapheresis: development and application in treatment of renal disorders // Artif.Organs.-1986.-Vol.10,N4.-P.324-330.
  • Bampi F., Morro A. Mixture approach to a model for sediment transport // Phys.Fluids.-1981.-Vol.24,N2.-P.209-213.
  • Bao J.-Z., Davis C.C., Swicord M.L. Microwave dielectric measurements of erythrocyte suspensions // Biophys.J.-1994.-Vol.66,N6.-P.2173-2180.
  • Bar\'oti-T\'oth K., Pinter J., Holl\'an S., Hoffer I., Szab\'o J.E. The effect of gamma irradiation on stored red cells // Biorheology.-1999.-Vol.36,N1-2.-P.123.
  • Barabino G.A., McIntire L.V., Eskin S.G., Sears D.A., Udden M. Endothelial cell interactions with sickle cell, sickle trait, mechanically injured, and normal erythrocytes unnder controlled flow // Blood.-1987.-Vol.70,N1.-P.152-157.
  • Barakat A.I., Karino T., Colton C.K. Microcinematographic studies of flow patterns in the excised rabbit aorta and its major branches // Biorheology.-1997.-Vol.34,N3.-P.195-221.
  • Barbee J.H. The effect of temperature on the relative viscosity of human blood // Biorheology.-1973.-Vol.10,N1.-P.1-5.
  • Barbee J.H., Cokelet G.R. The Fahraeus effect // Microvasc.Res.-1971.-Vol.33,N1.-P.6-16.
  • Bareford D., Stone P.C.W., Girling A.J., Gyde O.H.B., Stuart J. Effect of microcytosis on erythrocyte rheology // Clin. Hemorheol.-1988.-Vol.8,N2.-P.197-204.
  • Bareford D., Stone P.C.W., Girling A.J., Gyde O.H.B., Stuart J. Influence of erythrocyte anisocytosis on filterability through 3 mcm diameter pores // Clin.Hemorheol.-1988.-Vol.8,N2.-P.191-196.
  • Barlow R.B., Rolanyi N.Z. Absorption measuremenrs for oxygenated and reduced hemoglobin in the range 0.6-1.88 mkm // Clin.Chem.-1962.-Vol.8,N1.-P.67-71.
  • Barnes H.A. A review of the slip (wall depletion) polymer solutions, emulsions and particle suspensions in viscometers: its cause, character and cure // J.Non-Newtonian Fluid Mech.-1995.-Vol.54.-P.221-251.
  • Barnes H.A., Townsend P., Walters K. Flow of non-newtonian liquids under a varying pressure gradient // Nature.-1969.-Vol.224.-P.585-587.
  • Barnothy M.F. Magnetic fields and the number of blood platelets // Nature.-1970.-Vol.225,N21.-P.1146-1147.
  • Barras J.-P., Blattner J. Viscoelastic properties of blood and plasma in diabetes // Vasa.-1985.-Vol.14,N3.-P.216-219.
  • Barras J.-P., Moldovanyi A., Wagner S., Koerner K. Einfluss der Rejuvenation auf die rheologischen Eigenschaften gelagerter Erythrozyten // Vasa.-1994.-Vol.23,N4.-P.305-311.
  • Barras J.P., Jung T., Haberthur c., Koerner K. Vergleichende Untersuchungen der rheologischen Eigenschaften von Erythrozytenkonzentraten wahrend einer Lagerungszeit von sechs Wochen in verschiedenen Konservierungslosungen // Vasa.-1989.-Vol.18,N2.-P.122-127.
  • Barrett B.A., Hill P.J. A micromethod for the erythrocyte sedimentation rate suitable for use on venous or capillary blood // J.Clin.Pathol.-1980.-Vol.33,N11.-P.118-120.
  • Barroso-Aranda J., Schmid-Schonbein G.W. Pentoxifylline pretreatment decreases the pool of circulating activated neutrophils, in-vivo adhesion to endothelium, and improves survival from hemorrhagic shock // Biorheology.-1990.-Vol.27,N3/4.-P.401-418.
  • Barshtein G., Tamir I., Yedgar S. Red blood cell rouleaux formation in dextran solution: dependence on polymer conformation // Eur Biophys J.-1998.-Vol.27,N2.-P.177-181.
  • Barshtein G., Tamir I., Yedgar S. Red blood cell rouleaux formation in dextran solution: dependence on polymer conformation // Eur.Biophys.J.-1998.-Vol.27,N5.-P.177-181.
  • Barstad R.M., Roald H.E., Cui Y., Turitto V.T., Sakariassen K.S. A perfusion chamber developed to investigate thrombus formation and shear profiles in flowing native human blood at the apex of well-defined stenoses // Arterioscler Thromb.-1994.-Vol.14,N12.-P.1984-1991.
  • Barthes-Biesel D., Sgaier H. Role of membrane viscosity in the orientation and deformation of a spherical capsule suspended in shear flow // J.Fluid Mech.-1985.-Vol.160.-P.119-135.
  • Bartholovitsch A., Windberger U., Schwarz G., Gzarnecki I., Losert U. Blood viscosity in diabetic vs. non-diabetic (diabetes mellitus) canine and feline patients // Biorheology.-1999.-Vol.36,N1-2.-P.85-86.
  • Barton P.G. Effect of a polyoxyethylene detergent (BRIJ 58) on platelet aggregation, release and clotting activity // Biochim.et biophys.acta.-1978.-Vol.539,N1.-P.98-113.
  • Bartosz G., Grzelinska E., Bartkowiak A. Aging of the erythrocyte. XIX. Decrease in surface charge density of bovine erythrocytes // Mech Ageing Dev.-1984.-Vol.24,N1.-P.1-7.
  • Bartosz G., Guclu J., Soudain P. Erythrocyte behavior in free-flow electrophoresis is independent of erythrocyte age // Mech Ageing Dev.-1993.-Vol.72,N2.-P.97-103.
  • Baskurt O. In vivo correlates of altered red blood cell aggregation // Int.Conf.Biorheol.and School for Young Scientists.-Sofia.-2000.-P.7-12.
  • Baskurt O.K. Deformability of red blood cells from different species studied by resistive pulse shape analysis technique // Biorheology.-1996.-Vol.33,N2.-P.169-179.
  • Baskurt O.K., Bor Kucukatay M., Yalc O., Meiselmann HJ., Armstrong J.K. Standard aggregating media to test the "aggregability" of rat red blood cells // Biorheology.-1999.-Vol.36,N1-2.-P.119.
  • Baskurt O.K., Bor-Kucukatay M., Yalcin O. Effect of red blood cell aggregation on blood flow resistance // Biorheology.-1999.-Vol.36,N5-6.-P.447-452.
  • Baskurt O.K., Farley R.A., Meiselman H.J. Erythrocyte aggregation tendency and cellular properties in horse, human, and rat: a comparative study // Am J Physiol.-1997.-Vol.273,N6 Pt 2.-P.H2604-H2612.
  • Baskurt O.K., Kucukatay-Bor M., Yalcin O. The effect of red blood cell aggregation on blood flow resistance // Biorheology.-1999.-Vol.36,N1-2.-P.166.
  • Baskurt O.K., Kucukatay-Bor M., Yalcin O. The effect of red blood cell aggregation on blood flow resistance // Biorheology.-1999.-Vol.36,N5-6.-P.447-452.
  • Baskurt O.K., Meiselman H.J. Cellular determinants of low-shear blood viscosity // Biorheol.-1997.-Vol.34,N3.-P.235-247.
  • Baskurt O.K., Meiselman H.J. Determination of red blood cell shape recovery time constant in a Couette system by the analysis of light reflectance and ectacytometry // Biorheology.-1996.-Vol.33,N6.-P.489-503.
  • Baskurt O.K., Meiselman H.J., Kayar E. Measurement of red blood cell aggregation in a "plate-plate" shearing system by analysis of light transmission // Clin Hemorheol Microcirc.-1998.-Vol.19,N4.-P.307-314.
  • Baskurt O.K., Temiz A., Meiselman H.J. Effect of superoxide anions on red blood cell rheologic properties // Free Radic Biol Med.-1998.-Vol.24,N1.-P.102-110.
  • Baskurt Oguz K., Farley Robert A., Meiselman Herbert J. Erythrocyte aggregation tendency and cellular properties in horse, human, and rat: A comparative study // Amer. J. Physiol.-1997.-Vol.273,N6,Pt.2.-P.2604-2612.
  • Basmadjian D. The hemodynamic and embolizing forces acting on thrombi.- II.The effect of pulsatile blood flow // J.Biomech.-1986.-Vol.19,N10.-P.837-845.
  • Basmadjian D. The hemodynamic forces acting on thrombi, from inciient attachment of single cells to maturity and embolization // J.Biomech.-1984.-Vol.17.-P.287-298.
  • Batchelor G.K. A new theory of the instability of a nonuniform fluidized bed // J.Fluid Mech.-1988.-Vol.193.-P.75-110.
  • Bator J.M., Groves M.R., Price B.J., Eckstein E.C. Erythrocyte deformability and size measured in a multiparameter system that includes impedance sizing // Cytometry.-1984.-Vol.5,N1.-P.34-41.
  • Bauckhage K. The building mechanism of chains of spheres in Poiseuille flow - a model for the building mechanism of red cells chains // Biorheology.-1975.-Vol.12.-P.329-334.
  • Bauersachs R.M., Shaw S.J., Zeidler A., Meiselman H.J. Red blood cell aggregation and blood viscoelasticity in poorly controlled Type 2 diabetes mellitus // Clin.Hemorheol.-1989.-Vol.9,N6.-P.935-952.
  • Bauersachs R.M., Wenby R.B., Meiselman H.J. Determination of specific red blood cell aggregation induced via an automated system // Clin.Hemorheol.-1989.-Vol.9,N1.-P.1-26.
  • Baumgartner H.R. The role of blood flow in platelet adhesion, fibrin deposition and formation of mural trombi // Microvasc.Res.-1973.-Vol.5,N2.-P.167-179.
  • Baumgartner H.R., Haudenschild C. Adhesion of platelets to subendothelium // Ann.N.Y.Acad.Sci.-1972.-Vol.201.-P.22-36.
  • Baumler H., Donath E., Krabi A., Knippel W., Budde A., Kiesewetter H. Electrophoresis of human red blood cells and platelets. Evidence for depletion of dextran // Biorheology.-1996.-Vol.33,N4-5.-P.333-351.
  • Baumler H., Hardeman M.R., Lerche D., Toth K. Educational needs of quality management in hemorheological laboratories // Biorheology.-1999.-Vol.36,N1-2.-P.133.
  • Baumler H., Neu B., Donath E., Kiesewetter H. Basic phenomena of red blood cell rouleaux formation // Biorheology.-1999.-Vol.36,N5-6.-P.439-442.
  • Baumler H., Schurer B., Distler J. Rouleau formation of erythrocytes is influenced by thrombocytes // Folia Haematol Int Mag Klin Morphol Blutforsch.-1987.-Vol.114,N4.-P.478-479.
  • Bayer R., Caglayan S., Moser J. Analysis of erythrocyte flexibility by means of laser diffraction: effects of mechanical stress, photosensitation and ozone // SPIE Vol.1884. Cell and Biotissue Optics.-.-1994.-P.291-301.
  • Bayliss L.E. Rheology of blood and lymph // Deformat.and Flow in Biol.Systems.- Amsterdam.-1952.-P.355-418.
  • Bayliss L.E. The anomalous viscosity of blood // Flow Properties of Blood and Other Biol.Systems.- Oxford etc.-1960.-P.29-59.
  • Bayliss L.E. The flow of suspensions of red blood cells in capillary tubes. Changes in the "cell free" marginal sheath with changes in shearing stress // J. Physiol.-1965.-Vol.179,N1.-P.1-25.
  • Bayliss L.E. The rheology of blood // Handbook of Physiol. Sect.2. Circulation.Vol.1.- Washington, DC.-1962.-P.137-150.
  • Beach D.A., Bustamante C., Wells K.S., Foucar K.M. Differential polarization imaging.III.Theory confirmation.Patterns of polymerization of hemoglobin S in red blood sickle cells // Biophys.J.-1988.-Vol.53,N3.-P.449-456.
  • Beaudoin G., Jaffrin M.Y. High efficiency plasmapheresis using a rotatong membrane device // Life Support Syst.-1987.-Vol.5.-P.273.
  • Beaudoin G., Jaffrin M.Y. High efficiency plasmapheresis using a rotating membrane device // Life Support Syst.-1987.-Vol.5.-P.273.
  • Beck M.R., Eckstein E.C. Preliminary report on platelet concentration in capillary tube flows of whole blood // Biorheology.-1980.-Vol.17.-P.455-464.
  • Becker R.C. The role of blood viscosity in the development and progression of coronary artery disease // Cleve Clin.J.Med.-1993.-Vol.60,N5.-P.353-358.
  • Bedell S.E., Bush B.T. Erythrocyte sedimentation rate // Amer.J.Med.-1985.-Vol.78.-P.1001.
  • Bedford A., Hill C.D. A mixture theory for particulate sedimentation with diffusivity // AIChE Journal.-1977.-Vol.23,N3.-P.403-404.
  • Beerdus K.A. Structure-continuum models for rheological and transport properties of blood flow in microcirculatory system // Curr.Probl.Rheol.,Biorheol.,Biomech.-Moscow.-1992.-P.60..
  • Begent N., Born G.V.R. Growth rate in vivo of platelet thrombi, produced by iontophoresis of ADP, as a function of mean flow velocity // Nature.-1970.-Vol.227,N5261.-P.926-930.
  • Beissinger R.L., Laugel J.-F. Low-stress hemolysis in laminar blood flow: bulk and surface effects in capillaries // AIChE Journal.-1987.-Vol.33,N1.-P.99-108.
  • Beissinger R.L., Williams M.C. A dual mechanism for low-stress hemolysis in laminar blood flow // AIChE J.-1984.-Vol.30,N4.-P.569-577.
  • Beissinger R.L., Williams M.C. Effects of blood storage on rheology and damage in low-stress shear flow // Biorheology.-1985.-Vol.22.-P.477-493.
  • Beissinger R.L., Williams M.C., L.Augel J.-F. Hemolysis in low-stress laminar flow: bulk/surface effects // Proc.38th ACEMB.- Washington, DC.-1985.-P.302.
  • Beitler J.C., Sigel B., Machi J., Justin J.R. The effects of temperature on blood flow ultrasonic echogenicity in vitro // J Ultrasound Med.-1983.-Vol.2,N12.-P.529-533.
  • Bek A.M., Kononenko V.L. Frequency spectra of erythrocyte membrane flickering measured by laser light scattering // Laser Applications in Life Sciences. Pt.1.- Washington.-1991.-P.384-386.
  • Belch J.J.F., Saniabadi A.R., Forbes C.D. Whole blood white cell aggregation: a novel technique // Thromb.Res.-1987.-Vol.48,N6.-P.631-640.
  • Bell D.N., Goldsmith H.L. Platelet aggregation in poiseuille flow: II. Effect of shear rate // Microvasc Res.-1984.-Vol.27,N3.-P.316-330.
  • Bell D.N., Spain S., Goldsmith H.L. Adenosine diphosphate-induced aggregation of human platelets in flow through tubes. I. Measurement of concentration and size of single platelets and aggregates // Biophys.J.-1989.-Vol.56,N5.-P.817-828.
  • Bell D.N., Spain S., Goldsmith H.L. Adenosine diphosphate-induced aggregation of human platelets in flow through tubes. II. Effect of shear rate, donor sex, and ADP concentration // Biophys J.-1989.-Vol.56,N5.-P.829-843.
  • Bell D.N., Spain S., Goldsmith H.L. Adenosine diphosphate-induced aggregation of human platelets in flow through tubes. I. Measurement of concentration and size of single platelets and aggregates // Biophys J.-1989.-Vol.56,N5.-P.817-828.
  • Bell D.N., Spain S., Goldsmith H.L. Effect of red blood cells on the shear-rate dependent aggregation of ADP-activated human platelets // Biorheology.-1989.-Vol.26,N3.-P.596.
  • Bell D.N., Spain S., Goldsmith H.L. Extracellular-free Ca++ accounts for the sex difference in the aggregation of human platelets in citrated platelet-rich plasma // Thromb Res.-1990.-Vol.58,N1.-P.47-60.
  • Bell D.N., Spain S., Goldsmith H.L. The effect of red blood cells on the ADP-induced aggregation of human platelets in flow through tubes // Thromb Haemost.-1990.-Vol.63,N1.-P.112-121.
  • Bell D.N., Teirlinck H.C., Goldsmith H.L. Platelet aggregation in poiseuille flow: I. A double infusion technique // Microvasc Res.-1984.-Vol.27,N3.-P.297-315.
  • Bell G.I. Estimate of the sticking probability for cells in uniform shear flow with adhesion caused by specific bonds // Cell Biophys.-1981.-Vol.3,N3.-P.289-304.
  • Bellhouse B.J., Davies P.A., Esnouf M.P., Unarska M. Blood treatment by microfiltration and affinity separation // 1st World Congr.Biomech. Vol.2. - La Jolla, Ca.-1990.-P.205.
  • Belval T., Hellums J.D., Solis R.T. The kinetics of platelet aggregation induced by fluid-shearing stress // Microvasc.Res.-1984.-Vol.28,N3.-P.279-288.
  • Belval T.K., Hellums J.D. Analysis of shear-induced platelet aggregation with population balance mathematics // Biophys J.-1986.-Vol.50,N3.-P.479-487.
  • Belval T.K., Hellums J.D. Rapid reactions of platelets studied by a quenched-flow approach: aggregation kinetics // J Lab Clin Med.-1984.-Vol.103,N3.-P.485-487.
  • Ben-Ami R., Barshtein G., Beriiner S.. Yedgar S. Red blood cell aggregation: The relevant parameter(s) // Biorheology.-1999.-Vol.36,N1-2.-P.45.
  • Bender M., DeSerres D., Gooch P., Kondo S., Miller I., Smith D. The Gemini-11 S-4 radiation spaceflight interaction experiments // Radiat.Res.-1967.-Vol.31.-P.638-639.
  • Bender M., Gooch P., Kondo S. Human blood experiments in the Gemini series // Jap.J.Genetics.-1968.-Vol.43.-P.466-467.
  • Bender M., Gooch P., Kondo S. The Gemini-11 S-4 spaceflight radiation interaction experiment. The human blood experiment // Radiat.Res.-1968.-Vol.34.-P.115-124.
  • Bender M., Gooch P., Kondo S. The Gemini-3 S-4 spaceflight radiation interaction experiment // Radiat.Res.-1967.-Vol.31.-P.91-111.
  • Benedict C.R., Mathew B., Rex K.A., Cartwright J. Jr, Sordahl L.A. Correlation of plasma serotonin changes with platelet aggregation in an in vivo dog model of spontaneous occlusive coronary thrombus formation // Circ Res.-1986.-Vol.58,N1.-P.58-67.
  • Benes J., Sindelka G., Kordac V., Soucek J., Jirsa M., Sunka P. Ednoduchy model pro overeni ucinku vlastiho zdroje fokusovane razove vlny exponovanim erytrocytu a lymfocytu // Sb.Lek.-1989.-Vol.91,N4.-P.123-128.
  • Benis A.M. Mesure in vitro des propri\'et\'es rh\'eologiques du sang \`a faible vitesse relative // C.r.Soc.biol.-1968.-Vol.162,N2.-P.510-513.
  • Benis A.M., Chien S., Usami S., Jan K.-M. Inertial pressure losses in perfused hindlimb: a reinterpretation of the results of Whittaker and Winton // J.Appl.Physiol.-1973.-Vol.34,N3.-P.383-389.
  • Benis A.M., Nossel H.L., Aledort L.M., Koffsky R.M., Stevenson J.F., Leonard E.F., Shiang H., Litwak R.S. Extracorporeal model for study of factors affecting thrombus formation // Thromb Diath Haemorrh.-1975.-Vol.34,N1.-P.127-144.
  • Benis A.M., Peslin R., Mortara F., Lockhart A. Rheological aspects of pressure-flow relations studied on perfused isolated lobes of the canine lung // Bull.Physiol.-Pathol.Respirat.-1968.-Vol.4,N2.-P.417-441.
  • Benjamin H.B., Ihrig H.K., Roth D.A. The use of okra as a plasma replacement // Rev.Canad.Biol.-1951.-Vol.10.-P.215-221.
  • Benner K.U., Frede K.E., Lauterjung K.L. In vitro investigations with a new method for continuous and quantitative measurements of platelet aggregates in flowing blood // Pflugers Arch.-1970.-Vol.320.-P.142-151.
  • Benner K.U., Gaehtgens P., Frede K.E. Aggregation of human red blood cells (RBC) and platelets and its reversal by a surface-active substance (pluronic F 68) // Bibl.Anat.-1973.-Vol.12.-P.208-215.
  • Bennet L. Blood flow: velocity profile continuity near a wall // Biorheology.-1968.-Vol.5,N4.-P.253-262.
  • Beretz A., Klein-Soyer C., Archipoff G., Camilla C., Brisson C., Freysinnet J.-M., Cazenave J.-P. Modulation by cytokines of leukocyte-endothelial cell interactions. Implications for thrombosis // Biorheology.-1990.-Vol.27,N3/4.-P.455-460.
  • Berga L., Dolz J., Vives-Corrons J.L., Feliu E., Rozman C. Viscometric methods for assessing red cell deformability and fragmentation // Biorheology.-1984.-Vol.21,NSuppl.1.-P.297-301.
  • Bergentz S.-E. Fat embolism - a hemorheologic disturbance // Proc.4th Int.Congr.Rheol. Pt.4. Symp.on Biorheol.- New York etc.-1965.-P.581-592.
  • Berger N.E., Lucas R.J., Twersky V. Polydisperse scattering theory and comparisons with data forred blood cells // J.Acoust.Soc.Amer.-1991.-Vol.89,N3.-P.1394-1401.
  • Berger S.A. Blood rheology and sickle-cell disease // Proc.35th ACEMB.-Washington, DC.-1982.-P.167.
  • Berger S.A., Chow F., Singer J.R. A new oscillating element instrument for viscometric studies of biological fluids // Trans.Soc.Rheol.-1976.-Vol.20,N3.-P.339-360.
  • Berger S.A., King W.C. The flow of sicle-cell blood in the capillaries // Biophys.J.-1980.-Vol.29,N1.-P.119-148.
  • Bergman L.E., DeWitt K.J., Fernandez R.C., Botwin M.R. Effect of non-Newtonian behavior on volumetric flow rate for pulsatile flow of blood in a rigid tube // J.Biomech.-1971.-Vol.4,N3.-P.229-231.
  • Bergqvist D., Arfors K.-E. The role of erythrocytes in initial hemostatic plug formation // Bibl.Anat.-1977.-Vol.16.-P.457-459.
  • Bergqvist G., Bydgeman S., Rylander E. Deformability of fetal erythrocytes // Bibl.Anat.-1971.-Vol.16.-P.510-512.
  • Berk D., Evans E. Detachment of agglutinin-bonded red blood cells.III. Mechanical analysis for large contact areas // Biophys.J.-1991.-Vol.59,N4.-P.861-872.
  • Berkovitch Y., Marmur A., Brook G.J., Aviram M. Platelet adhesion determination in whole blood using a simple stagnation flow method // Ann.Biomed.Eng.-1984.-Vol.12.-P.335-346.
  • Berling C., Bucherer C., Lelievre J.C., Lacombe C. Comparison between viscometry and filtration. Applications on stored and artificially modified red blood cells // Clin.Hemorheol.-1985.-Vol.5,N3.-P.217-223.
  • Berling C., Lacombe C., Lelievre J.-C. A study of dependence of the RBC disaggregability upon the RBC shape // Biorheology.-1989.-Vol.26,N3.-P.659.
  • Berling C., Lacombe C., Lelievre J.C., Allary M., Saint-Blancard J. The RBC morphological dependence of the RBC disaggregability // Biorheology.-1988.-Vol.25,N5.-P.791-798.
  • Berling C., Lacombe C., Lelievre J.C., Quemada D., Mellotee D., Allary M., Fabre G., Blancard J.S., Daveloose D., Leterrier F. Relationship between rheological and morphological changes in stored erythrocytes // Clin.Hemorheol.-1985.-Vol.5,N3.-P.207-215.
  • Berling C., Lacombe C., Lelievre J.C., Rouvier B., Vasseur J.P., de Mazencour P., Buffat J.J. Hemorheologic integrity after intraoperative blood transfusion // Clin.Hemorheol.-1988.-Vol.8,N1.-P.81-88.
  • Berman H.J., Fuhro R.L. Effect of rate of shear on the shape of the velocity profile and orientation of red cells in arterioles // Biol.Anat.-1969,N10.-P.32-37.
  • Berman H.J., Fuhro R.L. Quantitative red blood cell aggregometry of human and hamster blood // Biol.Anat.-1973.-Vol.11.-P.117-124.
  • Bernard A., Paulet B., Colin V., Cardot P.J.P. Red blood cell separations by gravitational field-flow fractionation: Instrumentation and applications // TrAC: Trends Anal. Chem.-1995.-Vol.14,N6.-P.266-273.
  • Bernardin D., Sero-Guillaume O., Lucius M. Un modele rheologique pour le sang comme melange d'un fluide viscoelastique et d'un fluide visqueux // J.mec.theor.et appl.-1987.-Vol.6,N5.-P.647-662.
  • Bernasconi C., Del Santo A., Marrali F., Agostoni A. Standardized correction of whole blood viscosity for the main determinants: A computerized system // Clin.Hemorheol.-1989.-Vol.9,N4.-P.633-640.
  • Bernstein E.F., Blackshear P.L., Keller K.H. Factors influencing erythrocyte destruction in artificial organs // Am J Surg.-1967.-Vol.114,N1.-P.126-138.
  • Bernstein E.F., Marzec U., Harper E.J., Feuerstein I.A. Human platelet adhesion studies with the rotating probe device // ASAIO Journal.-1985.-Vol.8,N4.-P.244-250.
  • Bessis M. Living Blood cells and their Ultrastructure.- Berlin: Springer-1973.
  • Bessis M., Mohandas N. Deformability of normal, shape-altered and pathological red cells // Blood Cells.-1975.-Vol.1,N2.-P.315-321.
  • Bessis M., Mohandas N., Feo C. Automated ektacytometry: a new method of measuring red cell deformability and red cell indices // Blood Cells.-1980.-Vol.6,N3.-P.315-328.
  • Bessis M., Weed R.I., Leblond P.F. (eds.) Red Cell Shape.- New York etc.: Springer-1973.
  • Beste K.-W. Temperaturabhangigkeit von Membraneeigenschaften und massenspektrometrische Analyse // Biomed.Techn.-1983.-Vol.20,N5.-P.485-494.
  • Bestman A.R. Low Reynolds number non-Newtonian flow in slowly varying axisymmetrical tubes // Acta Mechanica.-1982.-Vol.44.-P.107-119.
  • Bestman A.R. Oscillatory non-newtonian flow in tubes of slowly varying radius // Acta Mechanica.-1982.-Vol.45,N1-2.-P.17-30.
  • Beutel U. Die Temperaturabh\"angigkeit der Sedimentationsgeschwindigkeit menschlicher erythrozyten // Acta biol. et med. ger.-1976.-Vol.35,N10.-P.1393-1397.
  • Beyer J.-H., Borberg H., Fuchs C., Nagel G.A., (eds.) Plasmapheresis in Immunology and Oncology. - Basel etc.: Karger-1982, 8+266 p.
  • Bicher H.J. Prevention of sludge-induced myocard damage by an antiadhesive drug // Bibl.Anat.-1969.-Vol.10.-P.202-207.
  • Bicher H.J., Padilla F., Van Wagner W.H. Effect of anti-adhesive drug on red cell sickling in vitro // Bibl.Anat.-1975.-Vol.13.-P.127-128.
  • Bienvenu K., Russel J., Granger D.N. Leukotriene B4 mediates shear rate-dependent leukocyte adhesion in mesenteric venules // Circulat.Res.-1992.-Vol.71,N4.-P.906-911.
  • Bikhazi A.B., Ayyub G.E. Kinetics of aggregation of human platelets // J.Pharmaceut.Sci.-1978.-Vol.67,N7.-P.939-945.
  • Billington E.W. Some measurements of the time dependence of the viscosity of thixotropic fluids // Proc.Phys.Soc.-1960.-Vol.75,N1.-P.40-50.
  • Bilo H.J.G., Fonk T., Ybema S.J., Gans R.O.B., Donker A.J.M. Erythrocyte packing differences in healthy volunteers, diabetic patients and patients with intermittent claudication // Clin.Hemorheol.-1989.-Vol.9,N6.-P.1017-1022.
  • Bilsing R., Lerche D., Baumler H. Aggregation and deformability as influential factors of the separation process of erythrocyte suspensions in the centrifugal field // Int.J.Microcirc.: Clin.and Exp.-1984.-Vol.1.-P.359.
  • Bilsker D.L., Waters C.M., Kippenhan J.S., Eckstein E.C. A freeze-capture method for the study of platelet-sized particle distributions // Biorheology.-1989.-Vol.26,N6.-P.1031-1040.
  • Bilto Y.Y., Ellory J.C., Player M., Stuart J. Binding of oxpentifylline to the erythrocyte membrane and effects on cell ATP, cation content, and membrane area // Clin.Hemorheol.-1988.-Vol.8,N6.-P.901-912.
  • Bilto Y.Y., Green M.A., Player M., Stuart J., Anstee D.J., Lambla M., Trijasson P. Preparation of standards for quality control of the measurement of erythrocyte deformability (filterability) // Clin.Hemorheol.-1988.-Vol.8,N6.-P.839-850.
  • Bilto Y.Y., Player M., Stuart J. Action of cetiedil citrate on the cation content, deformability, and osmotic fragility of human erytrocytes // Clin.Hemorheol.-1988.-Vol.8,N5.-P.649-662.
  • Bilto Y.Y., Player M., Stuart J. Rheological action of oxpentifylline and structurally related xanthine derivatives on human erythrocytes // Clin. Hemorheol.-1988.-Vol.8,N2.-P.213-222.
  • Bilto Y.Y., Srour M.A., Juma M. Exposure of human erythrocytes to oxygen radicals causes loss of deformability, increased osmotic fragility, lipid peroxidation and protein degradation // Biorheology.-1999.-Vol.36,N1-2.-P.97.
  • Birss R.R., Parker M.R. Magnetic separation of diamagnetic particles // IEEE Trans.Magn.-1979.-Vol.MAG-15,N6.-P.1523-1525.
  • Bishop M.F. Calculations of scattered light from rigid polymers by Shifrin and Rayleigh-Debye approximations // Biophys.J.-1989.-Vol.56,N5.-P.911.
  • Bitbol M. Red blood cell orientation in orbit C=0 // Biophys.J.-1986.-Vol.49,N5.-P.1055-1068.
  • Bitbol M., Leterrier F. M\'ethode de mesure du taux d'orientation de globules rouges en \'ecoulement par marquage de spin // C.r.Acad.sci.-1982.-Vol.295.-P.513-516.
  • Bitbol M., Leterrier F. Measurement of the erythrocyte orientation in a flow by spin labeling // Biorheology.-1982.-Vol.19,N6.-P.669-680.
  • Bitbol M., Leterrier F., Dufaux J., Quemada D. Measurement of the erythrocyte orientation in flow by spin labeling. III - Erythrocyte orientation and rheological conditions // Biorheology.-1985.-Vol.22,N1.-P.43-53.
  • Bitbol M., Quemada D. Measurement of the erythrocyte orientation in flow by spin labeling. II - Phenomenological models for the erythrocyte orientation rate // Biorheology.-1985.-Vol.22,N1.-P.31-42.
  • Bitoun J.P., Ly D.P., Bellet D. In vitro blood flows through small tubes // Biorheology.-1984.-Vol.21,Nsuppl.-P.151-153.
  • Black T.J. The design and operation of a novel type of hemoviscosimeter // Biorheology.-1970.-Vol.6,N4.-P.289.
  • Blackshear P.L. Mechanical hemolysis in the flowing blood // Biomechanics, Its Foundations and Objectives.-Englewood Cliffs,N.J.:Prentice-Hall.-1972.-P.501-530.
  • Blackshear P.L. Summation: flow-related surface phenomena // Fed Proc.-1971.-Vol.30,N5.-P.1709-1711.
  • Blackshear P.L., Anderson R.J. Hemolysis thresholds in microporous structures // Blood Cells.-1977.-Vol.3,N2.-P.377-390-390-395.
  • Blackshear P.L., Blackshear G.L. Mechanical hemolysis // Handbook of Bioengineering. - New York etc.-1987.-P.15.1-15.19.
  • Blackshear P.L., Deetz D.C., Morris C., Kayser S.J. Yield stress in sedimented red blood cell layers // Ann N Y Acad Sci.-1983.-Vol.416.-P.263-275.
  • Blackshear P.L., Dorman F.D., Steinbach J.H., Maybach E.J., Singh A., Collingham R.E. Shear, wall interaction and hemolysis // Trans Am Soc Artif Intern Organs.-1966.-Vol.12.-P.113-120.
  • Blackshear P.L., Forstrom R.J., Dorman F.D., Voss G.O. Effect of flow on cells near walls // Fed.Proc.-1971.-Vol.30,N5.-P.1600-1609.
  • Blackshear P.L., Forstrom R.J., Dorman F.D., Voss G.O. Effect of flow on cells near walls // Fed Proc.-1971.-Vol.30,N5.-P.1600-1611.
  • Blackshear P.L., Forstrom R.J., Lorberbaum M., Gott V.L., Sovilj R. A role of flow separation and recirculation in thrombus formation on prosthetic surfaces // AIAA Paper.-1971,N71-103.-P.1-4.
  • Blackshear P.L., Patankar S.V., Heil R.W., Ivandvic M., Nippoldt T., Rosenstein A. Fluid dynamics of blood cells and applications to hemodialysis.-Nat.Tech.Inform.Ser.PB-288 587-1978.
  • Blackshear P.L., Watters C. Observations of red blood cells hitting solid walls // Chem.Eng.Progr.Symp.Ser.-1971.-Vol.67,N114.-P.60-68.
  • Blank M., King R.G., Soo L., Abbott R.E., Chien S. The viscoelastic properties of monolayers of red cell membrane proteins // J.Coll.Interface Sci.-1979.-Vol.69,N1.-P.67-73.
  • Blank M.E., Diedrich D.F. Erythrocyte shape and volume changes caused by an inhibitor of the glucose and anion transporters // Biorheology.-1990.-Vol.27,N3/4.-P.345-355.
  • Blattler W., Straub P.W., Jeanneret C., Horak G.S. Effect of low fibrinogen concentrations on the rheology of human blood in vitro // Amer.J.Physiol.-1979.-Vol.236,N3.-P.H447-H450.
  • Blomback B., Okada M., Forslind B., Larsson U. Fibrin gels as biological filters and interfaces // Biorheology.-1984.-Vol.21.-P.93-104.
  • Bloor M.I. An analysis of blood flow at low shear rates in a concentric cylinder viscometer // Biorheology.-1982.-Vol.19,N6.-P.681-694.
  • Bloor M.I.G. An analysis of blood flow at low shear rates in a concentric cylinder viscometer // Biorheology.-1982.-Vol.19.-P.681-694.
  • Bluestein M., Mockros L.F. Hemolytic effects of energy dissipation in flowing blood // Med.Biol.Eng.-1969.-Vol.7,N1.-P.1-16.
  • Blum. Holistischer Blutstropfen-Test // Raum und Zeit.-1989.-Vol.8,N 40.-P.40-43.
  • Blumenfeld J.D., Gullans S.R., Hebert S.C. A simple method for continuous measurement of the volume of cell in suspension // Amer.J.Physiol.-1988.-Vol.254,N1.-P.C192-C199.
  • Boal D.H. Computer simulation of a model network for the erythrocyte cytoskeleton // Biophys.J.-1994.-Vol.67,N2.-P.521-529.
  • Boas Franz Edward, Forman Linda, Beutler Ernest Phosphatidylserine exposure and red cell viability in red cell aging and in hemolytic anemia // Proc. Nat. Acad. Sci. USA.-1998.-Vol.95,N6.-P.3077-3081.
  • Boccalon H.J.L. Introduction: Meeting of angiology and hemorheology in Bordeaux // Clin.Hemorheol.-1988.-Vol.8,N3/4.-P.351-352.
  • Bohler T., Wagner S., Seiberth V., Linderkamp O. Blood rheology and retinopathy in premature infants with very low birth weight // Clin.Hemorheol.-1995.-Vol.15,N3.-P.305-310.
  • Boisseau M.R., Freyburger G., Beylot C., Busquet M. Agregation erythrocytaire et parametres hemorheologiques chez l'insuffisant veineux. Influence de la troxerutine // Arteres et Veines.-1986.-Vol.5,N3.-P.231-234.
  • Boisseau M.R., Freyburger G., Busquet M., Beylot C. Pharmacological aspects of erythrocyte aggregation, effect of high doses of troxerutine // Clin.Hemorheol.-1989.-Vol.9,N5.-P.871-876.
  • Boisseau M.R., Mazoyer E., Ripoll L. Hemorheologically active subsrances, their profile and L.Drouet and clinical impact // Clin.Hemorheology.-1994.-Vol.14,N2.-P.171-180.
  • Bollini A., Bertoluzzo S.M.. Rasia M. Kinetic model response to factors controlling erythrocyte aggregation // Biorheology.-1999.-Vol.36,N1-2.-P.105-106.
  • Bonithon-Kopp C., Scarabin P.Y., Malmejac A., Thao-Chan M., Chretien J.M., Spriet A., Guize L. Menopause-related change in plasma viscosity // Clin.Hemorheol.-1988.-Vol.8,N3/4.-P.525-532.
  • Bonner R.F., Nossal R., Havlin S., Weiss G.H. Model for photon migration in turbid biological media // J.Opt.Soc.Amer.A.-1987.-Vol.4,N3.-P.423-432.
  • Bonomini V., Chang T.M.S., (eds.) Hemoperfusion. - Basel etc.: Karger-1982, 150 p.
  • Borgdorff P., Kok W.E.M., Vis M.A., van den Bos G.C. Vasodilation by shear-induced platelet aggregation in extracorporeal circuits // Amer.J.Physiol.-1994.-Vol.266,N3,2.-P.H891-H897.
  • Born G.V. Haemorheological influences on platelet thrombogenesis // Klin Wochenschr.-1986.-Vol.64,N20.-P.1050-1053.
  • Born G.V., Gorog P., Kratzer M.A. Aggregation of platelets in damaged vessels // Philos Trans R Soc Lond B Biol Sci.-1981.-Vol.294,N1072.-P.241-250.
  • Born G.V., Palinski W. Unusually high concentrations of sialic acids on the surface of vascular endothelia // Br J Exp Pathol.-1985.-Vol.66,N5.-P.543-549.
  • Born G.V.R., Gorog P., Kratzer M.A.A. Aggregation of platelets in damaged vessels // Phil.Trans.Roy.Soc.-1981.-Vol.B294.-P.241-250.
  • Bossis G., Brady J. Dynamic simulation of sheared suspensions. I.General method // J.Chem.Phys.-1984.-Vol.80.-P.5141-5154.
  • Bossis G., Brady J.F., Mathis C. Shear-induced structure in colloidal suspensions.I. Numerical simulation // J.Coll.and Interface Sci.-1988.-Vol.126,N1.-P.1-15.
  • Bossis G., Meunier A., Sherwood J.D. Stokesian dynamics simulations of particle trajectories near a plane // Phys.Fluids A.-1991.-Vol.3,N8.-P.1853-1858.
  • Bostiashvili Т., Shakarishvili R., Gobejishvili L., Momtselidze N., Mchedlishvili G. Effect of hemodilution on red blood cell zeta potential, other hemorheological indices and red blood morphology // Biorheology.-1999.-Vol.36,N1-2.-P.101.
  • Bot H., Kok W.E.M., Hardeman M.R., Goedhart P.T. Comparison of high frequency ultrasound and laser backscatter during erythrocyte aggregation // Biorheology.-1995.-Vol.32,N2-3.-P.239-240.
  • Bothwell T.P., Schwan H.P. Electrical properties of the plasma membrane of erythrocytes at low frequencies // Nature.-1956.-Vol.178.-P.265-266.
  • Bottiger L.E. Erithrocyte sedimentation rate and plasma lipids // Acta Med. Scand.-1973.-P.53.
  • Boucher J.H. Could circulatory curiosities in exercising horses be a consequence of blood pathorheology? // Biorheology.-1999.-Vol.36,N1-2.-P.68.
  • Bouchy M., Donner M., Andre J.C. Erythrocyte membranes alteration in a shear stress measured by fluorescence anisotropy // Cell Biophys.-1990.-Vol.17,N3.-P.213-225.
  • Bowdler A.J., Foster A.M. The effect of donor age on the flow properties of blood. Part I: Plasma and whole blood viscosity in adult males // Exp.Gerontol.-1987.-Vol.22,N3.-P.155-164.
  • Bowers V.M., Fisher L.R., Francis G.W., Williams K.L. A micromechanical technique for monitoring cell-substrate adhesiveness: Measurements of strength of red blood cell adhesion to glass and polymer test surfaces // J.Biomed.Mater.Res.-1989.-Vol.23,N12.-P.1453-1474.
  • Boycott A.E. Sedimentation of blood corpuscles plasma lipids // Natureed. Scand.-1920.-Vol.104.-P.532.
  • Boyle J. Microcirculatiry hematocrit and blood flow // J.Theor.Biol.-1988.-Vol.131,N2.-P.223-229.
  • Boynard M., Hanss M. Structure of concentrated RBC suspensions at rest as a function of their hematocrit // Biorheology.-1983.-Vol.20,N4.-P.402.
  • Boynard M., Lelievre J.C. An approach of red blood cell aggregation by ultrasonic echography // Clin.Hemorheol.-1989.-Vol.9,N5.-P.771-780.
  • Boynard M., Lelievre J.C. Size determination of red blood cell aggregates induced by dextran using ultrasound backscattering phenomenon // Biorheology.-1990.-Vol.27,N1.-P.39-46.
  • Boynard M., Lelievre J.C., Guillet R. Aggregation of red blood cells studied by ultrasound backscattering // Biorheology.-1987.-Vol.24,N5.-P.451-461.
  • Boynard M., Lelievre J.C., Guillet R. Evaluation of red blood cell aggregate size by ultrasonic backscattering // Proc.9 Annu.Conf.IEEE Eng.Med.and Biol.Soc.Vol.2. - New York, N.Y.-1987.-P.688-689.
  • Boynard M., Lelievre J.C., Guillet R. Ultrasonic evaluation of red blood cell aggregate size in a stationary flow // Biorheology.-1989.-Vol.26,N3.-P.562.
  • Boynard M., Lelievre J.C., Guillet R., Hammi E. Ultrasonic evaluation of red blood cell aggregate size in a stationary flow // Hemorheol.et Aggreg.Erythrocytaire. Vol.3.-1991.-P.65-70.
  • Boynard M., Razavian M., Beuzard Y. Evaluation of sickle cell aggregation by ultrasound backscattering // Clin.Hemorheol.-1988.-Vol.8,N5.-P.687-694.
  • Boynard M., Razavian M., Guillet R., Guillemin M.T., Beuzard Y. Ultrasonic interferometry: III- Study of red blood cell aggregation // Biorheology.-1989.-Vol.26,N3.-P.565.
  • Boynard M., Ribier F., Guillet R., Driss F., Perrotin P., Gaudey F., Pautuo C., Nalpas B. Assessment of red blood cell deformability in healthy adult subjects: Influence of sex, age, cigarette smoking., mestrual cycle and oral contraceptives // Clin.Hemorheology.-1994.-Vol.14,N2.-P.255-262.
  • Bozzo J., Hernandez M.R., Del G.A., Ordinas A. Red blood cell aggregability is increased by aspirin and flow stress, whereas dipyridamole induces cell shape alterations: Measurements by digital image analysis // Eur. J. Clin. Invest.-1996.-Vol.26,N9.-P.747-754.
  • Braasch D. Dependence of capillary flow resistance upon the width of the marginal layer and the viscosity of the axial core // Biorheology.-1984,NSuppl.1.-P.135-143.
  • Braasch D. Determination of blood viscosity in vitro with a microglass fiber viscometer // Pflugers Arch.-1969.-Vol.309,N4.-P.350-355.
  • Braasch D. Red cell elasticity and blood flow // Br J Haematol.-1973.-Vol.24,N4.-P.405-407.
  • Braasch D. Red cell flexibility, electrical resistance and viscosity of blood flowing through small glass capillaries // Pflugers Arch.-1980.-Vol.383,N3.-P.229-232.
  • Braasch D. The missing negative effect of red cell aggregation upon blood flow in small capillaries at low shear forces // Biorheology.-1984,NSuppl.1.-P.227-230.
  • Braasch D., Jenet W. Eruthrocyte flexibility. hemoconcentration and blood flow resistance in glass capillaries with diameters between 6 and 50 microns // Bibl.Anat.-1969.-Vol.10.-P.109-112.
  • Braasch D., Oppen U. Red cell flexibility and electrical resistance of blood centrifugated at low g-values // Pflugers Arch.-1970.-Vol.317,N3.-P.228-235.
  • Braasch D., Rogausch H. Decreased red cell deformability after severe burns determinated with the chlorpromazine test // Pflugers Arch.-1971.-Vol.323,N1.-P.41-49.
  • Braasch D., Rogausch H. Deformability and migration speed of red cells centrifuged at low g-values // Arch.Ges.Physiol.-1971.-Vol.232.-P.34.
  • Braasch D., Witte B. Correlation between shear dependent blood viscosity, electrical resistance and calculated width of the marginal layer in blood perfused capillary tubes // Int.J.Microcirc.:Clin.Exper.-1987.-Vol.5,N4.-P.347-357.
  • Bradly E.L., Sacerio J. The velocity of ultrasound in human blood under varying physiologic parameters // J.Surgical Res.-1972.-Vol.12,N4.-P.290-297.
  • Brady J., Bossis G. The rheology of concentrated suspensions of spheres in simple shear flow by numerical simulation // J.Fluid Mech.-1987.-Vol.155.-P.105-129.
  • Brady J., Bossis G. // Annu.Rev.Fluid Mech. Vol.20. - Palo Alto, Ca.-1988.-P.111-157.
  • Brailford J.D., Korpman R.A., Bull B.S. The red cell shape from discocyte to hyotonic spherocyte - a mathematical delineation based on a uniform shell hypothesis // J.Theor.Biol.-1976.-Vol.60,N1.-P.131-142.
  • Brancher J.P., Lucius M., Bernardin D., Raihani R., Stoltz J.F. Conception and realization of a new viscometer using ferrofluids for blood measurements // Biorheology.-1983.-Vol.20,N6.-P.814.
  • Brash J.I., Brophy J.M., Feuerstein I.A. Adhesion of platelets to artificial surface. Effect of red cells // J.Biomed.Mater.Res.-1976.-Vol.10,N3.-P.429-443.
  • Breck J., Tetlow W., Stephens T., Graham A., Mondy L., Surovec R. Particle size segregation induced by propellant processing: Techn.Rep. #LA-CP-89-499.- Los Alamos-1989.
  • Brennen C. A concentrated suspension model for Couette rheology of blood // Can. J. Chem. Eng.-1975.-Vol.53,N2.-P.126-133.
  • Brenner H., Bungay P.M. Rigid-particle and liquid-droplet models of red cell motion in capillary tubes // Fed.Proc.-1971.-Vol.30,N5.-P.1565-1576.
  • Briehl R.W. Rheology of sickle cell hemoglobin gels and gelation // Proc.35th ACEMB.-Washington, DC.-1982.-P.166.
  • Briehl R.W., Christoph G.W. Hemoglobin S polymerization: viscometry and light scattering // Proc.38th ACEMB.- Washington, DC.-1985.-P.114.
  • Brinkman R., Zijlstra W.G., Jansonius N.J. Quantitative evaluation of the rate of rouleaux formation of erythrocytes by measuring light reflection // Proc.Konink.Nederl.Akad. Ser.C.-1963.-Vol.66,N3.-P.236-240.
  • rody A.S., Sorette M.P., Gooding C.A., et al. Induced alignment of flowing sickle erythrocytes in a magnetic field : a preliminary report // Invest.Radiol.-1985.-Vol.20.-P.560-566.
  • Brody J.P., Han Y., Austin R.H., Bitensky M. Deformation and flow of red blood cells in a synthetic lattice: evidence for an active cytoskeleton // Biophys.J.-1995.-Vol.68,N6.-P.2224-2232.
  • Bronkhorst P.J.H., Brimbergen J., Nijhof E.J., Brakenhoff G.L., Sixma J.J. The mechanism of red blood cell aggregation investigated by means of direct cell manipulation using multiple optical trapping // Biorheology.-1995.-Vol.32,N2-3.-P.216-217.
  • Bronkhorst P.J.H., Grombergen J., Brakenhoff G.J., Heethaaar R.M., Sixma J.J. The mechanism of red cell (dis)aggregation investigated by means of direct cell manipulation using multiple optical trapping // Brit.J.Haematol.-1997.-Vol.96,N2.-P.256-258.
  • Brooks D.E. Current models of red blood cell aggregation // Biorheology.-1995.-Vol.32,N2-3.-P.103.
  • Brooks D.E. The effect of neutral polymers on the electrokinetic potential of cells and other charged particles. IV. Electrostatic effects in dextran-mediated cellular interactions // J.Coll.and Interface Sci.-1973.-Vol.43.-P.714-726.
  • Brooks D.E., Goodwin J.W., Seaman G.V.F. Rheology of erythrocyte suspensions: electrostatic factors in the dextran-mediated aggregation of erythrocytes // Biorheology.-1974.-Vol.11,N1.-P.69-77.
  • Brooks D.E., Russell G.C. Mechanistic studies on the shear-enhanced agglutination of erythrocytes induced by lectins // Biorheology.-1981.-Vol.18,N2.-P.273-274.
  • Brooks D.E., Seaman G.V.F. Role of mutual cellular repulsions in the rheology of concentrated red blood cell suspensions // Biorheology.-1970.-Vol.6,N4.-P.281.
  • Brookshier K.A., Tarbell J.M. Evaluation of a transparent blood analog fluid: aqueous xanthan gum/glycerin // Biorheology.-1993.-Vol.30,N2.-P.107-116.
  • Brookshier K.K., Tarbell J.M. Effect of hematocrit on wall shear rate in oscillatory flow. Do the elastic properties of blood play a role? // Biorheology.-1991.-Vol.28.-P.569-587.
  • Brookshire K., Tarbell J.M. Viscoelasticity effects on blood flow in a curved artery model // 1st World Congr. Biomech. Vol.2. -La Jolla, Ca.-1990.-P.187.
  • Brown D.P., Cheung P.W., Kenny M.A., Shoene R.B., Strohl K.P., Decker M.J. Theoretical models and experimental studies of pulse oximetry // Proc.9th Annu.Conf.IEEE Eng.Med.Biol.Soc.- New York.-1987.-P.435.
  • Brown P., Harrison M.J.G. Changes in blood filterability and platelet aggregability in patients with aortic valve replacements // Clin.Hemorheol.-1989.-Vol.9,N1.-P.139-148.
  • Bruckner U.B., Messmer K. Blood rheology and systemic oxygen transport // Biorheology.-1990.-Vol.27,N6.-P.903-912.
  • Bruil A., Beugeling T., Feijen J. A mathematical model for the leukocyte filtration process // Biotechnol. and Bioeng.-1995.-Vol.45,N2.-P.158-164.
  • Brun J.F., Boulot P., Micallef J.P., Viala J.L., Orsetti A. Physiological modifications of blood viscosity and red blood cell aggregation during labor and delivery // Clin. Hemorheology.-1995.-Vol.15,N1.-P.13-24.
  • Brun J.F., Boulot P., Rousseau O., El Bouhmadi A., Laffargue F., Viala J.L., Orsetti Modification of erythrocyte aggregation during labor and delivery // Clin.Hemorheol.-1994.-Vol.14,N5.-P.643-650.
  • Brun J.F., Criqui C., Cartry E., Fedou C., Orsetti A. Microalbuminuria in diabetics; possible involvement of hemorheologic factors in baseline excretion but not in exercise-induced rise // Clin.Hemorheol.-1989.-Vol.9,N2.-P.351-360.
  • Brun J.F., Criqui C., Orsetti A. Ultrasonic cleaning of polycarbonate sieves for filtration of whole blood from healthy and diabetic subjects // Clin.Hemorheol.-1988.-Vol.8,N6.-P.957-960.
  • Brun J.F., El Bouhmadi A., Boulot P., Rousseau O., Laffargue F., Viala J.L., Orsetti Evaluation of erythrocyte hyperaggregation in fetal blood drawn by cordocentesis as a marker of fetal diseases // Clin.Hemorheol.-1994.-Vol.14,N5.-P.637-642.
  • Brun J.F., Micallef J.P., Orsetti A. Hemorheologic effects of light prolonged exercise // Clin. Hemorheology.-1995.-Vol.14,N6.-P.807-818.
  • Brun J.F., Micallef J.P., Supparo I., Orsetti A. Effects of a standardized breakfast compared to fasting on the hemorheologic responses to submaximal exercise // Clinical Hemorheology.-1995.-Vol.15,N2.-P.213-220.
  • Brun J.F., Monnier J.F., Charpiat A., Orsetti A. Longitudinal study of relationships between red cell aggregation at rest and lactate response to exercise after training in young gymnasts // Clinical Hemorheology.-1995.-Vol.15,N2.-P.147-156.
  • Brun J.F., Orsetti A. Hematocrit in type I diabetics // Clin.Hemorheol.-1989.-Vol.9,N2.-P.361-366.
  • Brun J.F., Sekkat M., Lagouete C., Fedou C., Orsetti A. Relationships between fitness and blood viscosity in untrained normal short children // Clin.Hemorheol.-1989.-Vol.9,N6.-P.953-964.
  • Brun P., Pawlotsky Y. Appareil de mesure automatique de la sedimentation des hematies // ЗaпҐka 2528578, Фpa≠ж®п. Зa鹿.11.06.82, N8210209, oѓг°Ђ. 16.12.83. MKИ G01 N15/04, 33/48.-1983.
  • Brundage J.T. Blood and plasma viscosity determined by the method of concentric cylinders // Amer.J.Physiol.-1934.-Vol.110.-P.659-665.
  • Brunn P. On the rheology of viscous drops surrounded by ana elastic shell // Biorheology.-1980.-Vol.17.-P.419-430.
  • Brunn P. The velocity slip of polar fluids // Rheol. acta.-1975.-Vol.14,N12.-P.1039-1054.
  • Bucci E., Fronticelli C., Flanagan K., Perlman J., Steiner R.F. Fluorescence anisotropy decay studies upon hemoglobin A and its subunits // Biopolymers.-1979.-Vol.18,N3.-P.1261-1276.
  • Buchan P.C. Fetal deja vu of adult disease - haemorheological associations between fetal intrauterine growth retardation and adult hypertension // Clin.Hemorheol.-1994.-Vol.14,N5.-P.651-658.
  • Bucherer C., Lelievre J.C., Lacombe C. Theoretical and experimental study of the time dependent flow of red blood cell suspension through narrow pores // Biorheology.-1988.-Vol.25,N4.-P.639-650.
  • Buchholz D.H., Lin A., Snyder E., McCullough J., Perten J., Anderson M., Smith J., Dalmasso A., Helphingstine C., Path M. Plasma separation using a hollow fiber membrane device // Transfusion.-1986.-Vol.26,N2.-P.145-150.
  • Budman H., Shitzer A., Dayan J. Analysis of the inverse problem of freezing and thawing of a binary solution during cryosyrgical processes // Trans.ASME: J.Biomech.Eng.-1995.-Vol.117,N2.-P.193-202.
  • Bugliarello G. Velocity distribution and other characteristics of steady and pulsatile blood flow in fine glass tubes // Biorheology.-1970.-Vol.7,N2.-P.85-107.
  • Bugliarello G., Day H.J., Eggenberger A.J., Hsiao G.C.C. Model studies of the hydrodynamic characteristics of an erythrocyte. I. Method, apparatus and preliminary results // Proc.1st Int.Conf.Hemorheol.-Reykjavik..-P.305-321.
  • Bugliarello G., Hayden J.W. Detailed characteristics of the flow of blood in vitro // Trans.Soc.Rheol.-1963.-Vol.7.-P.209-230.
  • Bugliarello G., Hayden J.W. High-speed microcinematographyc studies of blood flow in vitro // Science.-1962.-Vol.138,N3544.-P.981-993.
  • Bugliarello G., Hung T.-K., James C.E. Model studies of the hydrodynamic characteristics of an erythrocyte // Proc.5th Int.Congr.Rheol.Vol.2.-Tokyo;Baltimore.-1970.-P.85-98.
  • Bugliarello G., Hung T.-K., James C.E. Model studies of the hydrodynamic characteristics of an erythrocyte - III. Drag of an individual erythrocyte, erythrocyte-wall interaction // Proc.5th Int.Rheol.Conf.-Tokyo.-1968.
  • Bugliarello G., Hung T.-K., James C.E. Model studies of the hydrodynamic characteristics of an erythrocyte - III. Drag in an erythrocyte-erythrocyte interaction // Biorheology.-1970.-Vol.6,N4.-P.281.
  • Bugliarello G., Kapur C., Hsiao G. The profile viscosity and other characteristics of blood flow in a non-uniform shear field // Proc.4th Int.Congr.Rheol. Pt.4. Symp.on Biorheol.- New York etc.-1965.-P.351-370.
  • Bugliarello G., Sevilla J. Velocity distribution and other characteristics of steady and pulsatile blood flow in fine glass tubes // Biorheology.-1970.-Vol.7,N2.-P.85-107.
  • Bugliarello G., Yanizaski G.M. Some phenomenological characteristics of the laminar flow of neutrally buoyant particles in Hele-Shaw // Biorheology.-1981.-Vol.18.-P.331-346.
  • Bull B.S. Clinical and laboratory implications of present ESR methodology // Clin.Lab.Hematol.-1981.-Vol.3.-P.283-298.
  • Bull B.S., Brailsford J.D. Red cell membrane deformability: new data // Blood.-1976.-Vol.48.-P.663-667.
  • Bull B.S., Brailsford J.D. The biconcavity of red cell: an analysis of several hypotheses // Blood.-1973.-Vol.41,N6.-P.833-844.
  • Bull B.S., Brailsford J.D., Korpman R.A. Red cell membrane deformability: an examination of two apparently disparate methods of measurement // Blood Cells.-1977.-Vol.3,N1.-P.31-54.
  • Bull B.S., Brailsford J.P. The Zeta sedimentation ratio // Blood..-Vol.40,N4.-P.550-559.
  • Bull B.S., Brecher G. An evaluation of the relative merits of the Wintrobe and Westergren sedimentation methods, including hematocrit correction // Amer.J.Clin. Pathol.-1974.-Vol.62,N10.-P.502-510.
  • Bulpitt C.J., Dolbery C.J., Kohner E.M. The marginal plasma sone in the retinal microcirculation // Cardiovasc.Res.-1970.-Vol.4,N2.-P.207-212.
  • Burch G.E., De Pasquale N.P. The hematocrit in patiennts with myocardial infarction // J.Amer.Med.Ass.-1962.-Vol.180.-P.63.
  • Bureau M., Healy J.C., Bourgoin D., Joly M. Etude experimentale in vitro du comportement rh\'eologique du sang en r\'egime transitoire \`a faible vitesse de cisaillement // Rheol.Acta.-1978.-Vol.17,N6.-P.612-625.
  • Bureau M., Healy J.C., Bourgoin D., Joly M. Rheological hysteresis of blood at low shear rate // Biorheology.-1980.-Vol.17.-P.292.
  • Burghardt W.R., Goldstick T.K., Leneschmidt J., Kempka K. Nonlinear viscoelasticity and the thrombelastograph: 1. Studies on bonvine plasma clots // Biorheology.-1995.-Vol.32,N6.-P.621-630.
  • Burke E., Falseti H., Ratering C., Frederick E., Field R., Hamilton H. Hematological variations after endurance running with regular and air soles shoes // Med. Sci. Sports Exerc.-1983.-Vol.121.-P.146-151.
  • Burns T.S., Saunders R.N. Quantitation of in vivo platelet aggregation by the platelet aggregate ratio method // Thromb.Res.-1977.-Vol.10,N4.-P.629-633.
  • Burton R.R., Sluka S.J., Krone R.B., Smith A.H. The physical characteristics of erythrocyte settling in a liquid medium // J.Biomech.-1969.-Vol.2,N4.-P.389-396.
  • Buscall R., White L.R. The consolidation of concentrated suspensions.Pt.1. The theory of sedimentation // J.Chem.Soc.Faraday Trans.1.-1987.-Vol.83,N3.-P.873-891.
  • Bustos M.C., Concha F. Simulation of batch sedimentation with compression // AIChE J.-1988.-Vol.34,N5.-P.859-861.
  • Butruille Y.A., Savitz S.R., Leonard E.F., Litwak R.S. Transient diffusion effects in the study of early platelet adhesion // J.Biomed.Mater.Res.-1976.-Vol.10,N1.-P.145-160.
  • Buyevich Y.A. Hydrodynamics of dispersions including diffusional effects // Arch.Mech.-1990.-Vol.42,N4-5.-P.429-442.
  • Cabel M., Meiselman H.J., Popel A.S., Johnson P.C. Contribution of red blood cell aggregation to venous vascular resistance in skeletal muscle // Amer J Physiol.-1997.-Vol.272,N2,Pt 2.-P.H1020-H1032.
  • Cadroy Y., Hanson S.R. Effects of red blood cell concentration on hemostasis and thrombus formation in a primate model // Blood.-1990.-Vol.75,N11.-P.2185-??.
  • Caglayan S., Bayer R. Effects of oxidative stress on erythrocyte deformability and fragility // SPIE Vol.2100. Cell and Biotissue Optics.-.-1994.-P.182-188.
  • Cai S.X., Wu X., Chen H., Xiao J. A newly defined viscoelasticity index and its aplication to an investigation on blood of lung cancer patients // Biorheology.-1995.-Vol.32,N2-3.-P.347.
  • Cai S.X., Wu Y.P., Yang F.Q. The apparent viscosity of blood flowing through a channel within cross electrostatic field // 1st World Congr. Biomech. Vol. 1. - La Jolla, Ca.-1990.-P.87.
  • Caimi G. Erythrocyte membrane fluidity and red cell cytosolic Ca2+ content during incubation, in normals and in subjects with vascular atherosclerotic disease // Clin.Hemorheol.-1995.-Vol.15,N4.-P.613-618.
  • Caimi G., Bruzzo S., Sarno A. Viscosita ematica e plasmatica nelle varie fasi dell'infarto miocardice acuto // G.Ital.Cardiol.-1977.-Vol.7,N8.-P.776-780.
  • Caimi G., Catania A., D'Asaro S., Serra A., Catalano C., Bono A., Sarno A. Red cell phospholipids and membrane microviscosity in diabetics // Clin.Hemorheol.-1988.-Vol.8,N6.-P.939-944.
  • Caimi G., Catania A., Serra A., D'Assaro S., Lo Presti R., Catalano C., Sarno A. Vascular atherosclerotic disease: behaviour of the red cell phospholipids and their relationships with the erythrocyte membrane fluidity. Preliminary report // Clin.Hemorheol.-1988.-Vol.8,N6.-P.925-928.
  • Caimi G., Lo Presti R., Montana M., Canino B., Grifo G., Ventimiglia G., Romano A., Catania A., Sarno A. Platelet membrane fluidity and platelet cytosolic Ca2+ content in several clinical conditions // Clin.Hemorheol.-1995.-Vol.15,N4.-P.657-666.
  • Caimi G., Presti R.Lo, Montana M., Canino B., Ventimiglia G., Grifo G., Catania A., Sarno A. Rheological and metabolic leucocyte determinants in diabetes mellitus // Clin. Hemorheology.-1995.-Vol.15,N1.-P.53-60.
  • Caimi G., Vaccaro F., Serra A., Picone F., Romano A., Sarno A. Macro- and microrheological determinants in chronic renal failure // Clin. Hemorheol.-1988.-Vol.8,N3/4.-P.433-438.
  • Caines G.H., Goldstein J.H. NMR investigation of hydroxyethyl starch=induced aggregation of human erythrocytes // Magn.Resonan.Med.-1987.-Vol.5,N1.-P.67-72.
  • Canham P.B. Hemolysis, induced by pulsed laser irradiation, transmitted along roulfaux of human red blood cells // Nouv Rev Fr Hematol.-1972.-Vol.12,N6.-P.825-833.
  • Canham P.B., Jay A.W.L., Tillsworth E. The rate of sedimentation of individual human red blood cells // J.Cell Physiol.-1971.-Vol.78,N3.-P.319-332.
  • Canham P.B., Parkinson D.R. The area and volume of single human erythrocytes during gradual osmotic swelling to hemolysis // Can J Physiol Pharmacol.-1970.-Vol.48,N6.-P.369-376.
  • Capecchi P.L., Ceccatelli L., Petri S., De Lalla A., Acciavatti A., Provvedi T., Laghi Pasini F., Di Perri T. Buflomedil prevents ischaemia-dependent changes in blood rheology and neutrophil reactivity. A possible adenosine-mediated mechanism // Clinical Hemorheology.-1995.-Vol.15,N2.-P.221-232.
  • Caprani A., Deslouis C., Epelboin I., Tribollet B. On a method of electrochemical study of the mass transfer in a blood medium, in laminar flow // Bioelectrochem.and Bioenergetics.-1975.-Vol.2.-P.351-357.
  • Caprino L., Rossi E. (eds.) Platelet Aggregation and Drugs.- London etc.: Academic Press-1974.
  • Capson D.W., Maludzinski R.A., Feuerstein I.A. Microcomputer-based interactive tracking of blood cells at biomaterial surfaces // IEEE Trans.Biomed.Eng.-1989.-Vol.36,N8.-P.860-864.
  • Cardoso S.S.S., Woods A.W. On convection and mixing driven by sedimentation // J.Fluid Mech.-1995.-Vol.285.-P.165-180.
  • Carey S., Lumley P. A new method for studying the involvement of platelets in clot retraction // Eur.J.Clin.Invest.-1995.-Vol.25,Nsuppl.2.-P.38.
  • Carr M.E. Apparatus and method for measuring clot elastic modulus and force development on the same blood sample // Пaв. 5205159 CШA, MKИ5 G 01 N 33/48 N822415; Зa鹿.17.01.92; Oѓг°Ђ.27.04.93; HKИ 73/64.41.-1993.
  • Carr M.E., Hauge Y. Enhancement of red cell washout from blood clots by alteration of gel pore size and red cell flexibility // Amer.J.Physiol.-1990.-Vol.259,N5,pt.2.-P.H1527-H1532.
  • Carr R., Cokelet G. Rheology of suspensions of normal and hardened erythrocytes and their mixtures // J.Rheol.-1980.-Vol.24,N6.-P.948..
  • Carr R.T. Estimation of hematocrit profile symmetry recovery length downstream from a bifurcation // Biorheology.-1989.-Vol.26,N5.-P.907-920.
  • Carr R.T., Tiruvaloor N.R. Enhancement of heat transfer in red cell suspensions in vitro experiments // Trans.ASME: J.BIomech.Eng.-1989.-Vol.111,N2.-P.152-156.
  • Carulli G. Applications of flow cytometry in the study of human neutrophil biology and pathology // Hematopathol. and Mol. Hematol.-1996.-Vol.10,N1-2.-P.39-61.
  • Casson N. Flow equation for pigment-oil suspensions of the printing ink type // Rheology of disperse systems. - New York, Pergamon Press.-1959.-P.84-104.
  • Caswell M., Stuart J. Storage of blood samples for measurement of plasma viscosity and erythrocyte sedimentation rate // Clin.Hemorheol.-1992.-Vol.12.-P.309-315.
  • Catsimpoolas N., Rossi R., Agathos S., Griffith A.L. Transient velocity sedimentation of mammalian cells // Biophys.J.-1976.-Vol.16,N2.-P.65.
  • Cattaneo M., Zighetti M.L., Lombardi R., Mannucci P.M. Role of ADP in platelet aggregation at high shear: Studies in a patient with congenital defect of platelet responses to ADP // Brit.J.Haematol.-1994.-Vol.88,N4.-P.826-829.
  • Cen R.-J., Hwang N.H.-C. Pressure, flow and vessel wall stress distribution in the entrance region of an artery: a mathematical model study // Vascular Dynamics: Physiological Perspectives (Eds. N. Westerhof and D.R.Gross), NATO ASI, A166, Plenum press, London, 1989.-1989.-P.109-120.
  • Cen R.-J., Liu B.-S., Hwang N.H.C. Developing oscillatory flow in a circular pipe: a new solution // Trans.ASME: J.Biomech.Eng.-1987.-Vol.109.-P.340-345.
  • Cerdonio M., Condi-Castellano A., Calabrese L. Room-temperature magnetic properties of oxi- and carboximonohemoglobin // Proc.Nat.Acad.Sci. USA.-1978.-Vol.75,N10.-P.4916-4919.
  • Cerdonio M., Condi-Castellano A., Mogno F. Magnetic properties of oxyhaemoglobin // Proc.Nat.Acad.Sci. USA.-1977.-Vol.74,N2.-P.398-400.
  • Cerdonio M., Morante S., Torresani D. Reexamination of the evidenCe for paramagnetism in oxy- and carbonmonoxyhemoglobin // Proc.Nat.Acad.Sci. USA.-1985.-Vol.82,N1.-P.102-104.
  • Cerny L.C., Cerny C.L., Cerny E.L. The sedimentation potential and the Boycott effect // Biorheology.-1988.-Vol.25,N3.-P.503-516.
  • Cerny L.C., Cerny E.L. Some properties of stroma-free hemoglobin solutions // J.Rheol.-1980.-Vol.24,N6.-P.970.
  • Cerny L.C., Cerny E.L., Granley C.R., Compolo F. The erithrocyte sedimentation rates: some model experiments // Biophys.J.-1987.-Vol.51,N2.-P.94a.
  • Cerny L.C., Cerny E.L., Granley C.R., Compolo F., Vogels M. The erythrocyte sedimentation rates: some model experiments // Biorheology.-1988.-Vol.25,N1/2.-P.85-94.
  • Cerny L.C., Cerny E.R. A fractal analysis of the erythrocyte sedimentation rate // Biorheology.-1995.-Vol.32,N2-3.-P.224.
  • Cerny L.C., Cook F.B., Stasiw D.M. A model for the sickle cell // Biorheology.-1974.-Vol.11,N4.-P.235-238.
  • Cerny L.C., Cook F.B., Walker C.C. Rheology of blood // Amer.J.Physiol.-1962.-Vol.202,N6.-P.1188-1194.
  • Cerny L.C., Puccini C.J., Stasiw D. Erythrocyte sedimentation rate and "a sedimentometer" // Microcirculation. Vol.1. New York; London.-1976.-P.135-136.
  • Cerny L.C., Stasiw D.M., Williams R., Yerden W. The age related hemorheological and osmotic properties of human blood // AIChE Symp.Ser.-1978.-Vol.74,N182.-P.85-89.
  • Cerny L.S., Cerny E.L., Cerny C.L., Reath M., Liszynskyj M., Gabel S. Some potential blood substitutes // Clin.Hemorheol.-1988.-Vol.8,N5.-P.621-636.
  • Cha W., Beissinger R. Augmented mass transport in sheared suspensions of red blood cell chosts // Ann.Biomed.Eng.-1993.-Vol.21,Nsuppl.1.-P.43.
  • Chabance B., Perrotin P., Fiat A.-M., Migliore-Samour D., Jolles P., Guillet R., Boynard M. A new platelet aggregation measurement by ultrasonic interferometry // Biorheology.-1995.-Vol.32,N2-3.-P.126.
  • Chabanel A. The A.L.Copley Award Lecture: Lipid and protein contribution to red blood cell membrane viscoelasticity // Clin.Hemorheol.-1988.-Vol.8,N3/4.-P.307-320.
  • Chabanel A., Glacet-Bernard A., Lelong F., Taccoen A., Coscas G., Samama M.M. Increased red blood cell aggregation in retinal vein occlusion // Br J Haematol.-1990.-Vol.75,N1.-P.127-131.
  • Chabanel A., Horellou M.H., Conard J., Samama M.M. Red blood cell aggregability in patients with a history of leg vein thrombosis: influence of post-thrombotic treatment // Br J Haematol.-1994.-Vol.88,N1.-P.174-179.
  • Chabanel A., Reinhart W., Chien S. Increased resistance to membrane deformation of shape-transformed human red blood cells // Blood.-1987.-Vol.69,N3.-P.739-743.
  • Chabanel A., Samama M. Evaluation of a method to assess red blood cell aggregation // Biorheology.-1989.-Vol.26,N4.-P.785-797.
  • Chabanel A., Samama M.M. Red blood cell aggregation in smokers // Clin.Hemorheol.-1995.-Vol.15,N3.-P.381-386.
  • Chacales E.H. Induced changes in the small vessel volume as determined by rheological relationships // Amer.J.Physiol.-1963.-Vol.205,N3.-P.518-526.
  • Chaffey C.E. Particle linking and viscosity in structural theories of pseudoplastic flow // J.Coll.Interface Sci.-1976.-Vol.56,N3.-P.495-504.
  • Challoner T., Briggs C., Rampling M.W., Thomas D.J. A study of the haematological and haemorheological consequences of venesection // Brit.J.Haematol.-1986.-Vol.62,N4.-P.671-678.
  • Chambers S.D., Ceccio S.L., Bartlett R.H. A model to predict damage to red blood cells by hydrodynamic cavitation // Ann. Biomed. Eng.-1997.-Vol.25,NSuppl.1.-P.23.
  • Chan T., Catry E., Weill D., Marcel G.A., George C. Assessment of erythrocyte defirmability by constant flow filtration technique: analysis of the pressure-time curve // Biorheology.-1983.-Vol.20,N6.-P.837-838.
  • Chan T., Catry E., Weill D., Marcel G.A., George C. Assessment of erythrocyte defirmability by constant flow filtration technique: analysis of factors influencing the initial pressure // Biorheology.-1983.-Vol.21,NSuppl.1.-P.267-270.
  • Chan T., Jaffrin M.Y., Seshadri V., McKay C. Flows of red blood cell suspensions through narrow two-dimensional channels // Biorheology.-1982.-Vol.19,N1/2.-P.253-267.
  • Chan T., Mc Kay C., Seshadri V., Jaffrin M.Y. Role de la deformabilite erythrocytaire sur les ecoulements sanguins a travers des capillaires cylindriques et plans // 5eme Congr.Soc.Biomec.-1980.-P.C1/83-C1/84.
  • Chang C., Powell R.L. Self-diffusion of bimodal suspensions of hydrodinamically interacting spherical particles in shearing flow // J.Fluid Mech.-1994.-Vol.281.-P.51-80.
  • Chang G., Absolom D.R., Strong A.B., Stubley G.D., Zingg W. Physical and hydrodynami factors affecting erythrocyte adhesion to polymer surfaces // J.Biomed.Mater.Res.-1988.-Vol.22,N1.-P.13-29.
  • Chang H.N., Roberson C.R. Platelet aggregation by laminar shear and brownian motion // Ann.Biomed.Eng.-1976.-Vol.4,N2.-P.151-183.
  • Chang H.N., Robertson C.R. Platelet aggregation by laminar shear and brownian motion // Ann.Biomed.Eng.-1976.-Vol.4,N2.-P.151-183.
  • Chang S., Takashima S., Asakura T. Volume and shape change of human erythrocytes induced by electrical fields // J.Bioelectr.-1985.-Vol.4,N2.-P.301-315.
  • Chapman G., Cokelet G. Model studies of leukocyte-endothelium-blood interactions. I.The fluid drag force on the adherent leukocyte // Biorheology.-1996.-Vol.33,N2.-P.119-138.
  • Charansonney O., Mouren S., Dufaux J., Duvelleroy M., Vicaut E. Red blood cell aggregation and blood viscosity in an isolated heart preparation // Biorheology.-1993.-Vol.30,N1.-P.75-84.
  • Charara J., Aurengo A., Lelievre J.C., Lacombe C. Quantitative characterization of blood rheological behavior in transient flow with a model including a structure parameter // Biorheology.-1985.-Vol.22,N6.-P.509-520.
  • Charm S., Kurland G.S. Tube flow behavior and shear stress-shear rate characteristics of canine blood // Amer.J.Physiol.-1962.-Vol.203,N3.-P.417-421.
  • Charm S., McComis W., Kurland G. Rheology and structure of red cell suspensions // Proc.4th Int.Congr.Rheol. Pt.4. Symp.on Biorheol.- New York etc.-1965.-P.335.
  • Charm S.E., Kurland G.S. A comparison of Couette, cone and plate and capillary tube viscometry of blood // Bibl. anat.-1968,N10.-P.85-91.
  • Charm S.E., Kurland G.S. Blood Flow and Microcirculation. - New York etc.: Wiley-1974, 300 p.
  • Charm S.E., Kurland G.S. Blood rheology // Cardiovasc.Fluid Dynamics. - London;New York.-1972.-Vol.2.-P.158-204.
  • Charm S.E., Kurland G.S. Discrepancy in measuring blood in Couette, cone and plate, and capillary tube viscometers // J.Appl.Physiol.-1968.-Vol.25,N6.-P.786-789.
  • Charm S.E., Kurland G.S. Static method for determining blood yield stress // Nature.-1967.-Vol.216,N5120.-P.1121-1123.
  • Charm S.E., Kurland G.S. Blood flow in non-uniform tapered capillary tubes // Biorheology.-1067.-Vol.4,N4.-P.175-183.
  • Charm S.E., Kurland G.S., Brown S.L. The flow characteristics of blood suspensions // Biomed.Fluid Mech.Symp.- New York.-1966.-P.89-93.
  • Charm S.E., Kurland G.S., Brown S.L. The influence of radial distribution and marginal plasma layer on the flow of red cell suspensions // Biorheology.-1968.-Vol.5,N1.-P.15-43.
  • Charm S.E., Kurland G.S., Tejada C., McComis W. The effect of dietary fat on whole blood and plasma viscosity // Proc.4th Int.Congr.Rheol. Pt.4. Symp.on Biorheol.- New York etc.-1965.-P.395-396.
  • Charm S.E., Paltiel B., Kurland G.S. Heat transfer coefficients in blood flow // Biorheology.-1968.-Vol.5.-P.133-145.
  • Chassis J.A., Schrier S.L. Membrane deformability and the capacity for shape change in the erythrocyte // Blood.-1989.-Vol.74,N7.-P.2562-2568.
  • Chaturani P. Some comments on "Poiseuille flow of a fluid with couple stress with applications to blood flow" // Biorheology.-1976.-Vol.13,N2.-P.133-136.
  • Chaturani P., // Biorheology.-1979.-Vol.16.-P.109-118.
  • Chaturani P., Biswas D. A comparative study pf Poiseuille flow of polar fluid under various boundary conditions with applications to blood flow // Rheol.acta.-1984.-Vol.23,N4.-P.435-445.
  • Chaturani P., Biswas D. Three-layered Couette flow of polar fluid with non-zero particle spin boundary condition at the interfaces with applications to blood flow // Biorheology.-1983.-Vol.20,N6.-P.733-744.
  • Chaturani P., Biswas D., Mahajan S.P. Reply to the comments on - a two-fluid model for blood flow through small diameter tubes // Biorheology.-1983.-Vol.20,N6.-P.807-809.
  • Chaturani P., Narasimhan S. Theory for flow of Casson and Herschel-Bulkley fluids in cone-plate viscometers // Biorheology.-1988.-Vol.25,N1/2.-P.199-208.
  • Chaturani P., Palanisamy V. Casson fluid model for pulsatile flow of blood under periodic body acceleration // Biorheology.-1990.-Vol.27,N5.-P.619-630.
  • Chaturani P., Palanisamy V. Microcontinuum model for pulsatile blood flow through a stenosed tube // Biorheology.-1989.-Vol.26,N4.-P.835-846.
  • Chaturani P., Palanisamy V. Pulsatile flow of power-law fluid model for blood flow under periodic body acceleration // Biorheology.-1990.-Vol.27,N5.-P.747-758.
  • Chaturani P., Pralhad R.N. Blood flow in tapered tubes with biorheological applications // Biorheology.-1985.-Vol.22,N4.-P.303-314.
  • Chaturani P., Pralhad R.N., Mahajan S.P. Flow through stenosed tubes and determination of flow factors for some blood diseases // Clin.Hemorheol.-1983.-Vol.3,N2.-P.129.
  • Chaturani P., Rathod V.P. A critical study of Poiseuille flow of couple stress fluid with applications to blood flow // Biorheology.-1981.-Vol.18,N2.-P.235-244.
  • Chaturani P., Rathod V.P. A theoretical model for pulsatile blood flow with applications to cerebrovascular diseases // Neurol. Res.-1981.-Vol.3,N3.-P.289-303.
  • Chaturani P., Upadhya V.S. Pulsatile flow of a couple stress fluid through circular tubes with applications to blood flow // Biorheology.-1978.-Vol.15,N3-4.-P.193-201.
  • Chaudhury T.K. On the motion of viscous liquid in a curved pipe of general section having a line of symmetry // J.Phys. Soc. Jap.-1964.-Vol.19,N10.-P.1961-1965.
  • Chen H., Whitten C.F., Weng J. The rheology of sickle blood cells // ISA BM.-1976.-P.93-99.
  • Chen H.Q., Yan L.N., Li L., Zhong G.H., Wu H.G. Alteration of viscoelasticity of whole blood from dogs with experimental acute necrotizing pancreatitis // 1st World Congr. Biomech. Vol.1. -La Jolla, Ca.-1990.-P.72.
  • Chen H.Q., Zhong G.-H., Li L., Chen Z.-Y. Effects of sex and age on thixotropic properties of whole blood from healthy adult subjects // Biorheology.-1989.-Vol.26,N3.-P.627.
  • Chen H.Q., Zhong G.H., Li L., Chen Z.Y., Que Z.N. The viscoelasticity of human blood at low shear rate // Proc.10th Annu.Int.Conf.IEEE Eng. Med. and Biol.Soc., New Orleans, La, Nov. 4-7, 1988, Pt 3/4. - New York (N.Y.).-1988.-P.705-706.
  • Chen J., Huang Z. Analytical model for effects of shear rate on rouleau size and blood viscosity // Biophys Chem.-1996.-Vol.58,N3.-P.273-279.
  • Chen M., Marinescu M., Shete S. Shear failure of the clots of human blood as functions of time and shear rate // 6th Int.Rheol.Congr.Rheol.Abstrs.-1972.-P.169-170.
  • Chen M.M. Convective transport theory as applied to primary hemostasis // Proc.24th Ann.Conf.Eng.Med. and Biol.-1971.-P.126.
  • Chen Roulhwai. Zaidi Azra S. Erythrocyte sedimentation rate control П в. 5895760 США, МПК^6 G01N 31/00-1999.
  • Chen S., Eldor A., Barshtein G., Zhang S., Goldfarb A., Rachmilewitz E., Yedgar S. Enhanced aggregability of red blood cells of beta-thalassemia major patients // Am J Physiol.-1996.-Vol.270,N6 Pt 2.-P.H1951-H1956.
  • Chen S., Gavish B., Barshtein G., Mahler Y., Yedgar S. Red blood cell aggregability is enhanced by physiological levels of hydrostatic pressure // Biochim Biophys Acta.-1994.-Vol.1192,N2.-P.247-252.
  • Chen S., Gavish B., Zhang S., Mahler Y., Yedgar S. Monitoring of erythrocyte aggregate morphology under flow by computerized image analysis // Biorheology.-1995.-Vol.32,N2-3.-P.133-134.
  • Chen S., Gavish B., Zhang S., Mahler Y., Yedgar S. Monitoring of erythrocyte aggregate morphology under flow by computerized image analysis // Biorheology.-1995.-Vol.32,N4.-P.487-496.
  • Cheng D.C.-H. A differential form of constitutive relation for thixotropy // Rheol. Acta.-1973.-Vol.12,N2.-P.228-233.
  • Cheng D.C.-H. On the behaviour of thixotropic fluids with a distribution of structure // J. Рhys. D: Аааl. Рhys.-1974.-Vol.7,N14.-P.L155-L158.
  • Cheng D.C.-H., Evans F. Phenomenological characterization of the rheological behaviour of inelastic reversible thixotropic and antithixotropic fluids // Brit. J. Phys.-1965.-Vol.16,N11.-P.1599-1617.
  • Cherubini P., Bozzoni M., Agosti R., Clivati A., Somazzi R., Longhini E. Red blood cell filterability in essential hypertension: Role of transmembranary ions fluxes // Clin.Hemorheol.-1989.-Vol.9,N1.-P.89-100.
  • Cheung P.W., Karakar M.N., Flammer C.M. Development of a solid-state fiberoptic catheter oximeter system employing three single optycal fibers // Proc.30th ACEMB.- Washington, DC.-1977.-P.291.
  • Chi L.-M., Wu W.-g., Sung K.-L.P., Chien S. Biophysical correlates of lysophosphatudylcholine- and ethanol-mediated shape transformation and hemolysis of human erythrocytes. Membrane viscoelasticity and NMR measurement // Biochim.et Biophys.Acta.-1990.-Vol.1027,N2.-P.163-171.
  • Chien S. Aggregation of red blood cells. Energy balance at the interface // Ann N Y Acad Sci.-1983.-Vol.404.-P.103-104.
  • Chien S. Biophysical properties of red cells in suspensions // The Red Blood Cell. Vol.2. New York e.a., Academic Press.-1975.-P.1031-1133.
  • Chien S. Change of erythrocyte deformability during fixation in acetaldehyde // Biorheology.-1970.-Vol.6,N4.-P.276-277.
  • Chien S. Clinical rheology in cardiovascular disease // Bibl.anat.-1977.-Vol.16.-P.472-474.
  • Chien S. Hemorheology in clinical medicine // Clin.Hemorheol.-1982.-Vol.2.-P.137-142.
  • Chien S. Microrheological and macrorheological behavior of blood // J.Rheol.-1980.-Vol.24,N6.-P.950-951.
  • Chien S. Red cell membrane and hemolysis // Cardiovasc.Flow Dyn.and Measur.- Baltimore.-1977.-P.757-798.
  • Chien S. Rheological methods // Blood Cells.-1977.-Vol.3,N2.-P.427-430.
  • Chien S. Summing up and concluding remarks: International Symposium on New Methods in Biorheology // Biorheology.-1984.-Vol.21,NSuppl.1.-P.349-354.
  • Chien S. Electrochemical and ultrastructural aspects of red cell aggregation // Bibl.Anat.-1972.-Vol.11.-P.244-250.
  • Chien S. Rheology of sickle cells and erythrocyte content // Blood Cells.-1977.-Vol.3,N2.-P.283-303.
  • Chien S. Present state of blood rheology // Hemodilution. Theor.Basis and Clin.Application.- Basel.-1972.-P.31.
  • Chien S., Dellenback R.J., Usami S., Seaman G.V.F., Gregersen M.I. Centrifugal packing of suspensions of erythrocytes hardened with acetaldehyde // Proc.Soc.Exp.Biol.Med.-1968.-Vol.127.-P.982.
  • Chien S., Dormandy J., Ernst E., Matrai A., (eds.) Clinical Hemorheology, Applications in Cardiovascular and Hemorheological Disease, Diabetes, Surgery and Gynecology.
  • Chien S., Feng S.S., Vayo M., Sung L.A., Usami S., Skalak R. The dynamics of shear disaggregation of red blood cells in a flow channel // Biorheology.-1990.-Vol.27,N2.-P.135-147.
  • Chien S., Jan K.-M. Red cell aggregation by macromolecules: roles of surface adsorption and electrostatic repulsions // J.Supramolec.Structure.-1973.-Vol.1,N4/5.-P.385-409.
  • Chien S., Jan K.-M., Usami S. Roles of electrostatic repulsion and mechanical shearing in red cell aggregation // Bibl. anat.-1975,N13.-P.93-94.
  • Chien S., King R.G., Skalak R., Usami S., Copley A.L. Viscoelastic properties of human blood and red cell suspensions // Biorheology.-1975.-Vol.12,N6.-P.341-346.
  • Chien S., Lan K.-m., Simchon S. Effects of blood viscosity on renin secretion // Biorheology.-1990.-Vol.27,N3/4.-P.589-597.
  • Chien S., Lanping A.S., Kim S., Burke A.M., Usami S. Determination of aggregation force in rouleaux by fluid mechanical technique // Microvasc.Res.-1977.-Vol.13,N3.-P.327-334.
  • Chien S., Schmalzer E.A., Lee M.M., Impelluso T., Skalak R. Role of white blood cells in filtration of blood cell suspensions // Biorheology.-1983.-Vol.20,N1.-P.11-27.
  • Chien S., Simchon S. Tissue hematokrit and hemorheology // Cerebral.Hyperemia and Ischemia: From Standpoint Cerebral Blood Vol.:Proc.Satell.Symp., Brain Sec.4th World Congr., Microcirc., Osaka 1-2 Aug., 1987 .-Amsterdam etc.-1988.-P.39-43.
  • Chien S., Simchon S., Abbott R.E., Jan K.-M. Surface adsorption of dextrans on human red cell membrane // J.Coll.Interface Sci.-1977.-Vol.62,N3.-P.461-470.
  • Chien S., Sung L.A. Molecular basis of red cell membrane rheology. Part.1 // Biorheology.-1990.-Vol.27,N3/4.-P.327-344.
  • Chien S., Sung L.A., Kim S., Burke A., Usami S. Determination of aggregation force in rouleaux by fluid mechanical technique // Microvasc.Res.-1977.-Vol.13,N3.-P.327-333.
  • Chien S., Usami S., Dellenback R.J., Gregersen M.I. Shear-dependent interaction of plasma proteins with erythrocytes in blood rheology // Amer.J.Physiol.-1970.-Vol.219,N1.-P.143-153.
  • Chien S., Usami S., Dellenback R.J., Gregersen M.I. Blood viscosity: influence of erythrocyte deformation // Science.-1967.-Vol.157,N3790.-P.829-??.
  • Chien S., Usami S., Dellenback R.J., et al. Blood viscosity: influence of erythrocyte aggregation // Science.-1967.-Vol.157,N3790.-P.829-831.
  • Chien S., Usami S., Skalak R. Blood flow in small tubes // Handbook of Physiol.Sect.2.The Cardiovasc.System.Vol.4,pt.1. - Bethesda,Md.-1984.-P.217-249.
  • Chisolm G.M., Gainer J.L. Tube viscometry of blood: effects of wall material // J.Appl.Physiol.-1971.-Vol.31,N2.-P.313-317.
  • Chiu Y.L., Chou Y.L., Jen C.J. Platelet deposition onto fibrin-coated surfaces under flow conditions // Blood Cells.-1988.-Vol.13,N3.-P.437-447.
  • Chmiel H. New experimental results in hemorheology // Biorheology.-1974.-Vol.11,N3.-P.87-96.
  • Chmiel H., Anadere I., Moser K. Hemorheological changes under blood leeching // Clin.Hemorheol.-1989.-Vol.9,N4.-P.569-576.
  • Chmiel H., Anadere I., Walitza E. The determination of blood viscoelasticity in clinical hemorheology // Biorheology.-1990.-Vol.27,N6.-P.883-894.
  • Chmiel H., Anadere I., Walitza E., Witte S. A combined apparatus for simultaneous determination of hematocrit and viscoelasticity of blood // Clin.Hemorheol.-1983.-Vol.3,N2.-P.126.
  • Chmiel H., Anadere I., Walitza E., Witte S. The measurement of density and its significance in blood rheology // Biorheology.-1983.-Vol.20,N5.-P.685-696.
  • Cho Y.I., Kensey K.R. Effects of the non-Newtonian viscosity of blood on flows in a diseased arterial vessel. Part 1: Steady flows // Biorheology.-1991.-Vol.28,N3-4.-P.241-262.
  • Choudhry R.R., Rice R.P.O., Triffit P.D., Harper W.M., Gregg P.J. Plasma viscosity and C-reactive protein after total hip and knee arthroplasty // J.Bone and Jt Surg.-1992.-Vol.74B,N4.-P.523-524.
  • Chow J.C.F. Blood flow: theory, effective viscosity and effects of particle distribution // Bull.Math.Biol.-1975.-Vol.37,N5.-P.471-488.
  • Chow T.W., Hellums J.D., Moake J.L., Kroll M.H. Shear stress-induced von Willebrand factor binding to platalet glycoprotein Ib initiates calcium influx associated with aggregation // Blood.-1992.-Vol.80,N1.-P.113-120.
  • Christianson R.A. The choice of technique for sedimentation technique // Amer.J.Med.Sci.-1939.-Vol.198.-P.177-187.
  • Chu Y., Lin P.J., Chang C.H., Nash G.B. Formation of red cell rosettes by malarial-parasitized cells in shear flow // Biorheology.-1995.-Vol.32,N2-3.-P.337.
  • Chung Y.C., Leal L.G. An experimental study of the effective thermal conuctivity of a sheared suspension of rigid spheres // Int.J.Multiphase Flow.-1982.-Vol.8,N6.-P.605-625.
  • Cichocki B., Felderhof B.U., Schmitz R. Hydrodynamic interactions between two spherical particles // PhysicoChem.Hydrodynamics.-1988.-Vol.10,N3.-P.383-403.
  • Cicinelli Ettore, Ignarro Louis J., Schonauer Luca M., Matteo Maria G., Galantino Pietro. Faico Nunziata Different plasma levels of nitric oxide in arterial and venous blood // Clin. Physiol.-1999.-Vol.19,N5.-P.440-442.
  • Ciuffetti G., Lombardini R., Palazzetti D., Pasqualini L., Santambrogio L., Orecchini G., Mannarino E. La reologia leucocitaria nell ictus ishemico recente // Arteriosclerosis.-1989.-Vol.14,N1.-P.29-32.
  • Ciuffetti G., Mannarino E., Mercuri M., Lombardini R., Maragoni G., Pascualini L. Peripheral vascular disesase: role of leucocyte rheology and activation during controlled ischemia // Vasa.-1989.-Vol.18,N3.-P.197-200.
  • Ciuffetti G., Mercuri M., Mannarino E., Robinson M.K., Lennie S.E., Lowe G. Peripheral vascular disease: Rheologic variables during controlled ischemia // Circulation.-1989.-Vol.80,N2.-P.348-352.
  • Ciuffetti G., Mercuri M., Rizzo M.T., Lombardini R., Mannarino E. Human leucocyte rheology and tissue ischaemia // Eur.J.Clin.Invest.-1989.-Vol.19,N3.-P.323-327.
  • Ciuffetti G., Parnetti L., Senin U. Haemorheological factors in a group of elderly patients with acute mental confusion // Clin.Hemorheol.-1984.-Vol.4,N2/3.-P.341-362.
  • Clark A., Cokelet G.R., Federspiel W.J. Erythrocyte motion and oxygen transport // Bibl.anat.-1998.-Vol.1,N20.-P.385-388.
  • Clark J.S., Votteri B., Ariagno R.L., Cheung P., Eichhorn J.H., Fallat R.J., Lee S.E., Newth C.J.L., Rotman H., Sue D.Y. Noninvasive asessment of blood gases // Amer.Rev.Resp.Dis.-1992.-Vol.145,N1.-P.220-232.
  • Clark P.A., Willars E.J., Oughton J., Barnes A.J. A simplified micropipette method for measuring red cell deformability // Clin.Hemorheol.-1984.-Vol.4,N2/3.-P.255-262.
  • Cleary S.F., Lin L.-M., Garber F. Erythrocyte hemolysis by radiofrequency fields // Biolelectromagnetics.-1985.-Vol.6,N3.-P.313-322.
  • Clivati A., Ricciardi G., Agosti R., D'Ettorre M., Pagliano L., Longhini E. Erythrocyte aggregation in the newborn: physiopathological and clinical aspects // Clin.Hemorheol.-1989.-Vol.9,N5.-P.823-830.
  • Closse C.. Dachary-Prigent J., Boisseau M.R. Phosphatidylserine-pathway of human erythrocyte adhesion to vascular endothelium. An in vitro study using a flow-based model // Biorheology.-1999.-Vol.36,N1-2.-P.21.
  • Cloutier G. Characterization of erythrocyte aggregation with ultrasound // Biorheology.-1999.-Vol.36,N5-6.-P.443-446.
  • Cloutier G., Qin Z. Ultrasound backscattering from non-aggregating and aggregating erythrocytes--a review // Biorheology.-1997.-Vol.34,N6.-P.443-470.
  • Cloutier G., Qin Z., Durand L.-G., Teh B.G. Cross-sectional distribution of red blood cell aggregates detected by power doppler ultrasound // Biorheology.-1995.-Vol.32,N2-3.-P.124.
  • Cloutier G., Qin Z., Durand L.G., Teh B.G. Power Doppler ultrasound evaluation of the shear rate and shear stress dependences of red blood cell aggregation // IEEE Trans Biomed Eng.-1996.-Vol.43,N5.-P.441-450.
  • Cloutier G., Shung K.K. Cyclic variation of Doppler backscattering power from porcine blood in a pulsatile flow model // Proc.IEEE Ultrasonics Symp.-.-1991.-P.1301-1304.
  • Cloutier G., Shung K.K. Study of red cell aggregation in pulsatile flow from ultrasonic Doppler power measurements // Biorheology.-1993.-Vol.30,N5-6.-P.443-461.
  • Cloutier G., Shung K.K. The effect of turbulence on the variation of ultrasonic Doppler amplitude within the cardiac cycle // Proc.Annu.Int.Confer.IEEE Eng.Med.Biol.Soc.-1992.-P.2118-2119.
  • Cloutier G., Zhao Qin Ultrasound backscattering from non-aggregating and aggregating erytrocytes: a review // Biorheology.-1997.-Vol.34,N6.-P.443-470.
  • Coakley W.T., Hewison L.A., Tilley D. Interfacial instability and the agglutination of erythrocytes by polylysine // Eur.Biophys.J.-1985.-Vol.13,N2.-P.123-130.
  • Coccheri S., Palareti G. Relationship between peripheral arterial diseases and hemorheologic disorders. Pathophysiologic and therapeutic implications // Clin.Hemorheol.-1984.-Vol.4,N2/3.-P.177-192.
  • Coffey B., Tran-Son-Tay R., Kinney T.R., Orringer E.P., Hochmuth R.M. Relationship of clinical severity to packed cell rheology in sickle cell anemia // Blood.-1991.-Vol.78,N10.-P.2735-2739.
  • Cohen I. The mechanism of clot retraction // Platelet Membrane Glycoproteins.-.-1985.-P.299-323.
  • Cohen J.L., Srinivasan S., Sawyer P.N. Determination of sedimentation potentials of canine erythrosytes // Archives of Biochem.and Biophys.-1968.-Vol.124.-P.556-559.
  • Cokelet G.R. Microscopic rheology and tube flow of human blood // Microcirculation.- New York.-1976.-P.9-30.
  • Cokelet G.R. The rheology and tube flow of blood // Handbook of Bioengineering. - New York etc.-1987.-P.14.1-14.17.
  • Cokelet G.R. The rheology of human blood // Biomechanics, Its Foundations and Objectives. - Englewood Cliffs,N.J.-1972.-P.63-104.
  • Cokelet G.R. Viscometric in vitro and in vivo blood viscosity relationships: how are they related? // Biorheology.-1999.-Vol.36,N5-6.-P.343-358.
  • Cokelet G.R., Bush R.W., La Celle P.L. Electroviscous flow and electrophoretic motion during erythrocyte entry in a glass capillary in the presence of applied electric potential gradients // Pflugers Arch.-1981.-Vol.390,N1.-P.94-95.
  • Cokelet G.R., Goldsmith H.L. Decreased hydrodynamic resistance in the two-phase flow of blood through small vertical tubes at low flow rates // Circ Res.-1991.-Vol.68,N1.-P.1-17.
  • Coleman P.B., Ottenbreit B.T., Polimeni P.I. Effects of a drag-reducing polyelectrolyte of microscopic linear dimension (Separan AP-273) on rat hemodynamics // Circulat.Res.-1987.-Vol.61,N6.-P.787-796.
  • Collingham R.E. Mass transfer in flowing suspensions: Ph.D.Thesis, Univ.of Minnesota-1968.
  • Colton C.K. Analysis of membrane processes for blood purification // Blood Purif.-1987.-Vol.5,N4.-P.202-251.
  • Colton C.K. Fundammentals of gas transport in blood // Membrane, Artificial Lungs, and Acute Respiratory Failure.- Washington.-1976.-P.3.
  • Colton C.K., Smith K.A., Merrill E.W., Friedman S. Diffusion of urea in flowing blood // AIChE Journal.-1971.-Vol.17,N4.-P.800-808.
  • Concha F., Bustos M.C. A modification of the Kinch theory of sedimentation // AIChE Journal.-1987.-Vol.33,N2.-P.312-315.
  • Conhaim R.L., Staub N.C. Reflection spectrophotometric measurement of O_2 uptake in pulmonary arterioles of cats // J.Appl.Physiol.:Respirat.,Environ.,Exercise Physiol.-1980.-Vol.48,N5.-P.848-856.
  • Cook A.M., Evans S.-A., Jones J.G. The filterability of leukocytes in undiluted blood // Biorheology.-1998.-Vol.35,N2.-P.119-130.
  • Cook H.F. A comparison of the dielectric behavior of pure water and human blood at microwave frequences // Brit.J.Appl.Physiol.-1952.-Vol.3.-P.249-255.
  • Cooke B.M., Mohandas N., Coppee R.L. Molecular basis for the abnormal rheological properies of malaria-infected red blood cells // Biorheology.-1999.-Vol.36,N1-2.-P.59-60.
  • Cooke B.M., Morris-Jones S., Greenwood B.M., Nash G.B. Adhesion of parasitied red blood cells to cultured endothelial cells: A flow-based study of isolated from Gambian children with falciparum malaria // Parasitology.-1993.-Vol.107,N4.-P.359-368.
  • Copley A.L. Apparent viscosity and wall adherence of blood systems // Flow Properties of Blood and Other Biol.Systems.- Oxford etc.-1960.-P.97-117.
  • Copley A.L. Certain aspects of hemorheology in a near zero gravity environment // Biorheology.-1979.-Vol.16,N1-2.-P.37-49.
  • Copley A.L. List of publications on hemorheology by Robin Fahraeus and tributes to him. A selection // Clin.Hemorheol.-1988.-Vol.8,N6.-P.831-832.
  • Copley A.L. List of publications on hemorheology by Robin Fahraeus and tributes to him. A selection // Biorheology.-1988.-Vol.25,N6.-P.833-834.
  • Copley A.L. On the validity of classical fluid mechanics in biorheology // Proc.4th Int.Congr.Rheol.Pt.4.Symp.Biorheol.-New York.-1965.-P.3-10.
  • Copley A.L. Perihemorheology: the bridge between the vessel-blood organ and the organs it penetrates // Biorheology.-1989.-Vol.26,N2.-P.377-388.
  • Copley A.L. Poiseuille Gold Medal award ceremony. Laudatio: Poiseuille Awardee Hellmut Hartert // Biorheology.-1984.-Vol.21,N1-2.-P.13-15.
  • Copley A.L. Robin Fahraeus - the scientist and the person // Biorheology.-1989.-Vol.26,N3.-P.423-461.
  • Copley A.L. Robin Fahraeus - the scientist and the person // Thromb.Res.-1989.-Vol.54,N6.-P.521-560.
  • Copley A.L. Some problems in hemorheology // Proc.5th Int.Congr.Rheol.Vol.2.-Tokyo;Baltimore.-1970.-P.3-25.
  • Copley A.L. Stanley Mason - biorheologist and friend // Biorheology.-1989.-Vol.26,N2.-P.97-98.
  • Copley A.L. The 100th birthday of Robin Fahraeus // Clin.Hemorheol.-1988.-Vol.8,N6.-P.821-824.
  • Copley A.L. The 100th birthday of Robin Fahraeus // Biorheology.-1988.-Vol.25,N6.-P.823-826.
  • Copley A.L. The Robin Fahraeus Memorial Lecture: Robin Fahraeus - The Scientist and the Person // Clin.Hemorheol.-1989.-Vol.9,N3.-P.395-434.
  • Copley A.L. The endothelial fibrin(ogenin) lining and its physiological significance // Biorheology.-1988.-Vol.25,N1/2.-P.377-400.
  • Copley A.L. On the endothelial fibrin layer, fibrinogen polymerization and thrombosis // Blood Vessels.- Berlin etc.-1976.-P.22-27.
  • Copley A.L., Huang C.R., King R.G. Rheogoniometric studies of whole human blood at shear rates from 1000 to 0.0009 sec?? Part I - Experimental findings // Biorheology.-1973.-Vol.10,N1.-P.17-22.
  • Copley A.L., King R.G. A survey of surface hemorheological experiments on the inhibition of fibrinogenin formation employing surface layers of fibrinogen systems with heparins and other substances. A contribution on antithrombogenic action // Thromb.Res.-1984.-Vol.35,N3.-P.237-256.
  • Copley A.L., King R.G. Erythrocyte aggregation, compaction stasis, the Cohnheim compaction phenomenon and inflammation // Clin.Hemorheol.-1989.-Vol.9,N5.-P.809-822.
  • Copley A.L., King R.G. On the viscoelasticity of anticoagulated whole human blood in steady shear as tested by rheogoniometric measurements of normal forces // Biorheology.-1975.-Vol.12,N1.-P.5-10.
  • Copley A.L., King R.G. On the viscoelasticity of surface layers of highly purified human and bovine fibrinogen preparations // AIChE Symp.Ser.-1978.-Vol.74,N182.-P.31-37.
  • Copley A.L., King R.G. The action of human red blood cells and platelets on viscous resistance of plasma protein systems // Biorheology.-1973.-Vol.10,N4.-P.533-539.
  • Copley A.L., King R.G., Chien S. On the antithrombogenic action of low molecular weight heparins and of chondroitins A, B and C // Biorheology.-1983.-Vol.20,N5.-P.697-704.
  • Copley A.L., King R.G., Chien S., Usami S., Skalak R., Huang C.R. Microscopic observations of viscoelasticity of human blood in steady and oscillatory shear // Biorheology.-1975.-Vol.12,N5.-P.257-263.
  • Copley A.L., King R.G., Huang C.-R. Erythrocyte sedimentation of human blood at varying shear rates // Biorheology.-1976.-Vol.13,N5.-P.281-286.
  • Copley A.L., King R.G., Huang C.-R. Erythrocyte sedimentation of human blood at varying shear rates // Microcirculation.Vol.1.-New York;London.-1976.-P.133-134.
  • Copley A.L., King R.G., Scheinthal B.M., Devi A., Ohlmeyer P. Gelation of fibrinogen and plasma systems studied with light scattering and rheogoniometry // Biorheology.-1970.-Vol.6,N4.-P.274-275.
  • Copley A.L., Scott Blair G.W. Haemorheological methods for the study of blood systems and of processes of blood coagulation // Flow Properties of Blood and Other Biol.Systems.- Oxford etc.-1960.-P.412-417.
  • Copley A.L., Scott Blair G.W., Balea T., Staple P.H. The marginal plasmatic zone and th flow of blood in living capillary vessels // Flow Properties of Blood and Other Biol.Systems.- Oxford etc.-1960.-P.418-422.
  • Copley A.L., Thorley R.S. Apparatus for measurement of viscosity and wall adherence // Flow Properties of Blood and Other Biol. Systems.- Oxford etc.-1960.-P.361-368.
  • Copley A.L., Thornley R.S. Apparatus for measurement of viscosity and wall adherence // Flow Properties of Blood and Other Biol.Systems.- Oxford etc.-1960.-P.361-368.
  • Copley A.L., Witte S. Three conferences on clinical hemorheology held on 1987 and 1988 // Clin.Hemorheol.-1989.-Vol.9,N2.-P.179-180.
  • Corattiyl V., Eckstein E.C. Regional platelet concentration in blood flow through capillary tubes // Microvasc Res.-1986.-Vol.32,N2.-P.261-270.
  • Corbet A.B. On the in vivo material functions of mammalian blood // Biorheology.-1983.-Vol.20,N1.-P.57-70.
  • Cordy E., Drabkin D.L. Spectrophotometric studies XVI. Determination of oxygen saturation of blood by simlified technique application to standard equipment // Bibliotheca Haematol.-1965,N21.-P.285-299.
  • Corry W.D., Jackson L.J., Seaman G.V. Action of hydroxyethyl starch on the flow properties of human erythrocyte suspensions // Biorheology.-1983.-Vol.20,N5.-P.705-717.
  • Corry W.D., Meiselman H.J. Deformation of human erythrocytes in a centrifugal field // Biophys.J.-1978.-Vol.21,N1.-P.19-34.
  • Cortinovis A., Crippa A., Crippa M. Rapporto tra emoreologia e fattori pro- ed anti-coagulanti nelle vasculopatie inflammatorie e degenerative // Minerva med.-1994.-Vol.85,N9.-P.439-449.
  • Coryell C.D., Stitt F., Pauling L. The magnetic properties and structure of ferrihemoglobin (methemoglobin) and some of its components // J.Amer.Chem.Soc.-1937.-Vol.59.-P.633-642.
  • Costa R.P., Davidovich M.A., Wainberg E., Bemski G., Kischinevsky M. Rotation of sickle cells in homogeneous magnetic fields // Biophys.J.-1981.-Vol.36,N2.-P.443-447.
  • Coulibaly M., Bikandou B., Razavian M., Boynard M., Galacteros F., Beuzard Y. Study of erythrocytes by ultrasonic interferometry: effect of deoxygenation on aggregation, agglutination and packing of sickle cells // Biorheology.-1995.-Vol.32,N2-3.-P.126.
  • Coulter N.A., Pappenheimer J.R. Development of turbulence in flowing blood // Amer.J.Physiol.-1949.-Vol.159,N2.-P.401-408.
  • Coulter N.A., Singh M. Equivalent viscosity of oscillating blood // Proc.23rd ACEMB.-Washington, DC.-1970.-P.22.
  • Coulter N.A., Singh M. Frequency dependence of blood viscosity in oscillatory flow // Biorheology.-1971.-Vol.8,N3-4.-P.115-124.
  • Covey D.C., Albrigth J.A. Clinical significance of the erythrocyte sedimentation rate in orthopaedic surgery // J.Bone Jt.Surg.-1987.-Vol.69A,N1.-P.148-151.
  • Cowin S.C. Limits on the effective viscosities of polar fluids // Phys. Fluids.-1974.-Vol.17,N11.-P.2128-2129.
  • Cowin S.C. On the polar fluid as a model for blood flow in tubes // Biorheology.-1972.-Vol.9,N1.-P.23-25.
  • Cowin S.C. The theory of polar fluids // Adv.Appl.Mech.Vol. 14.-New York e.a.-1974.-P.279-347.
  • Cox H.A., Su G.-J. The influence of electrokinetic charge on the rheological properties of red cell suspensions // Proc.4th Int.Congress Rheol. Pt.4.Sympos.Biorheol.- New York; London.-1965.-P.337-350.
  • Craveri A., Tornaghi G., Paganardi L., Ranieri R., Scaglioni S., Torchiana M., Giovannini M. Hemorheological changes in obesity // Clin.Hemorheol.-1988.-Vol.8,N5.-P.723-736.
  • Crawford N. Structural and molecular properties of platelet membrane sytems // Platelet Membrane Glycoproteins.-.-1985.-P.13-49.
  • Crook M., Crawford N. Electrokinetic, analytical and functional heterogeneity of circulating human platelets: separation of subpopulations by continuous flow electrophoresis after taxol stabilization // Biochim Biophys Acta.-1989.-Vol.1014,N1.-P.26-39.
  • Cross M.M. Kinetic interpretation of non-newtonian flow // J. Coll. Interface Sci.-1970.-Vol.33,N1.-P.30-35.
  • Crowell A., Kusserow B.K., Nyborg W.L. Functional changes in white blood cells after microsonation // Ultrasound Med.Biol.-1977.-Vol.3,N2-3.-P.185-190.
  • Cui W., Ostrander L.E., Lee B.Y. In vivo reflectance of blood and tissue as a function of light wavelength // IEEE Trans.Biomed.Eng.-1990.-Vol.37,N6.-P.632-640.
  • Czerlinski G., Goldmann-Leikin R., Reid D. Cell sedimentation with gravity activation // Cell Biophys.-1988.-Vol.13,N3.-P.189-199.
  • D'Ambra M.N., Whitbourne P.G.S., Ang S., Venegas J. Changes in clotting viscoelasticity caused by cardiopulmonary bypass (CPB) surgery // Anesth.and Analg.-1999.-Vol.88,N4, Suppl..-P.20.
  • Dahler-Eriksen Bjarne Steen, Lassen Jens Flensted, Lauritzen Torsten, Lund Enk Dalsgaard, Brandslund Ivan Forskelle i brugen af C-reaktivt protein og saenkningsreaktion i almen praksis og pa sygehus // Ugeskr. Laeger.-1998.-Vol.160,N34.-P.4868-4872.
  • Dandona P., Hutton R.H., Chow F.P., Craft I.L. Platelet aggregation in pregnancy // Br Med J (Clin Res Ed).-1981.-Vol.282,N6262.-P.479.
  • Daniels F.H., McCabe R.E., Leonard E.F. The use of hemoglobin solutions in kidney perfusions // CRC Crit.Rev.Biomed.Eng.-1984.-Vol.9,N4.-P.315-345.
  • Daniels W.A., Phillips W.M. Stability characteristics of normal and fixed erythrocyte suspensions // J.Rheol.-1980.-Vol.24,N6.-P.961-962.
  • Danon D., Marikovsky Y., Skutelsky E. The sequestration of old erythrocytes and expulsed nuclei from the circulation of mammalians // Biorheology.-1970.-Vol.6,N4.-P.277.
  • Das B., Enden G., Popel A.S. Stratified multiphase model for blood flow in a venular bifurcation // Ann Biomed Eng.-1997.-Vol.25,N1.-P.135-153.
  • Das B., Johnson P.C., Popel A.S. Effect of nonaxisymmetric hematocrit distribution on non-Newtonian blood flow in small tubes // Biorheology.-1998.-Vol.35,N1.-P.69-87.
  • Das R.N., Seshadri V. A semi-empirical model for flow or blood and other particulate suspensions through narrow tubes // Bull Math Biol.-1975.-Vol.37,N5.-P.459-470.
  • Daveloose D., Bitbol M., Leterrier F., Delamour L. Application of the spin label method to blood cell microrheology: measurements of their orientation rate and their internal viscosity // Clin.Hemorheol.-1983.-Vol.3,N2.-P.123.
  • David T., Thomas S.J., Walker P.G. Models of platelet deposition instagnation point flow // Physiol.Flows and Flow-Struct.Interact.- Graz.-1999.-P.9.
  • Davis K.E., Russel W.B. An asymptotic description of transient settling and ultrafiltration of colloidal dispersions // Phys.Fluids.-1989.-Vol.A1,N1.-P.82-100.
  • Davis R.B., Schneck D.J., Gulstein W.H. Pulsatile flow through a branching tube with collapsing walls: volumetric flow redistribution // Trans.ASME. J.Fluids Eng.-1984.-Vol.106.-P.430-434.
  • Davis R.H. Sedimentation of axisymmetric particles in shear flows // Phys.Fluids.A.-1991.-Vol.3,N9.-P.2051-2060.
  • Davis R.H., Birdsell S.A. Hydrodynamic model and experiments for crossflow microfiltration // Chem.Eng.Commun.-1987.-Vol.49.-P.217.
  • Davis R.H., Hassen M.A. Spreading of the interface at the top of a slightly polydisperse sedimenting suspension // J.Fluid Mech.-1988.-Vol.196.-P.107-134.
  • Davis R.H., Leighton D.T. Shear induced transport of a particle layer along a porous wall // Chem.Eng.Sci.-1987.-Vol.42,N2.-P.275-281.
  • Davis R.H., Sherwood J.D. A similarity solution for steady-state cross-flow microfiltration // Chem.Eng.Sci.-1990.-Vol.45,N11.-P.3203-3209.
  • Dawson J.B. The E.S.R. in a new dress // Brit.Med.J.-1960.-Vol.1.-P.1697.
  • De Kroon M.G.M., Slager C.J., Gussenhoven W.J., Serruys P.W., Roelandt J.R.T.C., Bom N. Cyclic changes of blood echogenicity in high-frequency ultrasound // Ultrasound Med.Biol.-1991.-Vol.17.-P.723-728.
  • De-en H., Jing-Chao R. Haemorheological investigation in patients with nasopharyngeal carcinima // Clin.Hemorheol.-1988.-Vol.8,N6.-P.891-900.
  • De-en H., Jing-chao R., Pei-qing W. Haemorheological changes in cancer // Clin.Hemorheol.-1988.-Vol.8,N6.-P.945-956.
  • DeFeo P.A., Wurzel D., Wildevuur W., Hansen G., Kolff J., Stewart G.J. Deposition of blood elements on vacuum-formed ventricles in calves. A gross and electron microscopic study // ASAIO Trans.-1988.-Vol.34,N3.-P.550-555.
  • Deakin M.A.B. Erythrocyte distribution in arterial blood flow.1. Basic equations and anisotropic effects // Bull. Math.Biophys.-1967.-Vol.29,N3.-P.549-563.
  • Debnath L. On a microcontinuum model of pulsatile flow // Acta mech.-1976.-Vol.24,N3-4.-P.165-177.
  • Del Guidice E., Doglia S., Milani M. Rouleau formation of erythrocytes: a dynamical model // J.Biol.Phys.-1985.-Vol.13,N3.-P.57-68.
  • Delahaye R., Fabry R. Modifications in blood flow observed by conjunctival angioscopy after 10 days of treatment by pentoxifylline (using 19 cases) // Clin.Hemorheol.-1988.-Vol.8,N3/4.-P.391-398.
  • Delamaire M., Bernard M.D., Boisseau M.R. Haemorheology of arterial hypertension: influence of urapidil // Blood Press.Suppl.-1995.-Vol.3.-P.58-61.
  • Delamour L., Testylier G., Daveloose D., Bitbol M., Leterrier F. Effect of blood storage on the orientation rate of erythrocytes in a flow // Clin.Hemorheol.-1985.-Vol.5.-P.225-230.
  • Delano M.D. Simple physical constraints in hemolysis // J.Theor.Biol.-1995.-Vol.175,N4.-P.517-524.
  • Dellimore J.W. Conductometric investigation of erythrocyte behaviour during shear flow of concentrated suspensions through a large tube // Proc.R.Soc.Lond.-1976.-Vol.B193,N1113.-P.359-385.
  • Dellimore J.W., Campbell D.A. Apparent suspension viscosity and the orientation and deformation of erythrocytes in shear flow // AIChE Symp.Ser.-1978.-Vol.182.-P.65-71.
  • Dellimore J.W., Dunlop M.J., Canham P.B. Ratio of cells and plasma in blood flowing past branches in small plastic channels // Am J Physiol.-1983.-Vol.244,N5.-P.H635-H643.
  • Dellimore J.W., Gosling R.G. Compression of erythrocytes during centrifugation // Biorheology.-1973.-Vol.10,N3.-P.325-328.
  • Dellimore J.W., Gosling R.G. Use of electrical conductance measurements in studies of the orientation of microscopic particles in stationary and flowing suspensions // J.Appl.Phys.-1973.-Vol.44,N12.-P.5599-5606.
  • Deluga K.S., Cokelet G.R., Notter R.H., Shapiro D.L. The effect of lipid emulsions on neonatal and adult blood viscosity // Clin.Hemorheol.-1987.-Vol.7,N6.-P.793-802.
  • Deng L.H., Barbenel J.C., Lowe G.D. Influence of hematocrit on erythrocyte aggregation kinetics for suspensions of red blood cells in autologous plasma // Biorheology.-1994.-Vol.31,N2.-P.193-205.
  • Deng L.H., Wu Y.P., Wang G.R., Yang R.F., Lee J.S. The Fahraeus effect in sheet flows with a gap thickness of 4 to 36 mcm // Trans.ASME:J.Biomech.Eng.-1989.-Vol.111,N1.-P.32-36.
  • Denning A.du P., Watson J.H. The viscosity of the blood // Proc.Roy.Soc.-1906.-Vol.B78.-P.328-358.
  • Dennis J., Wyatt D.C. Effect of hematocrit value upon electromagnetic flowmeter sensitivity // Circulat.Res.-1969.-Vol.24,N6.-P.875-886.
  • Denny D., Brodkey R.S. Kinetic interpretation of non-newtonian flow // J.Appl.Physiol.-1962.-Vol.33,N7.-P.2269-2274.
  • Deslouis C., Ezzidi A., Tribollet B. Enhanced mass transfer by particle suspensions // Physico-Chem.Hydrodyn.-1987.-Vol.9,N1/2.-P.63-69.
  • Dettori A.G., Quintavalla R., Poli T. Circulating platelet aggregates in diabetes mellitus // Acta Haematol.-1983.-Vol.69,N1.-P.65-66.
  • Deuling H.J., Helfrich W., Harbrich W. Lipid bilayer vesicles and red blood cells: theoretical shapes and experimental observations // 1977 Biomech.Symp. - New York.-1977.-P.69-70.
  • Deushi S., Takano T., Toyama Y., Dobashi T., Sakanishi A. Enhanced sedimentation rate of bovine erythrocytes at a low temperature // Biorheology.-1996.-Vol.33,N1.-P.92.
  • Deushi S., Tashimo T., Toyama Y., Dobashi T., Sakanishi A. Enhanced sedimentation rate of bovine erythocytes at a low temperature // Biorheology.-1996.-Vol.33,N1.-P.92.
  • Deutsch S., Phillips W.M. The stability of blood cell suspensions to small disturbances in circular Couette flow: experimental results for the Taylor problem // Trans.ASME: J.Biomech.Eng.-1979.-Vol.101,N4.-P.289-292.
  • Deutsch S., Phillips W.M., Heist J. An interpretation of low strain rate blood viscosity measurements; a continuum approach // Biorheology.-1976.-Vol.13,N5.-P.297-308.
  • Devanathan R., Parvathamma S. Flow of micropolar fluid through a tube with steanosis // Med.Biol.Eng.Comput.-1983.-Vol.21,N4.-P.438-445.
  • Devendran T., Brandhuber M., Schmid-Schonbein H. Axial migration of RBC and the influence of cell flexibility and aggregation // Bibl.Anat.-1975,N13.-P.95-96.
  • Devendran T., Schmid-Schonbein H. Axial concentration in narrow tube flow for various RBC suspensions as function of wall shear stress // Pflugers Arch.-1975.-Vol.355,NSuppl.-P.R20.
  • Dewanjee M.K., Kapadwanjwala M., Mao W.-W., Jy W., Ahn Y., Ruzius K., Ghafouripour A.K., Serafini A.N., Sfakianakis G.N. A higher blood flow window of reduced thrombogenicity and acceptable fragmentation in a hollow fiber hemodialyzer // ASAIO J.-1993.-Vol.39,N3.-P.363-367.
  • Dewanjee M.K., Rowland S.M., Kapadvanjwala M., Hellman R.L., MacGregor D.C., Serafini A.N., Palatianos G.M., Georgiou M.F., Eckstein E.C., Sfakianakis G.N. The dynamics of platelet thrombus formation rate, thrombus retention time, and rate of embolization on a control and heparin bonded polyurethane angio-catheter // ASAIO Trans.-1990.-Vol.36,N3.-P.M745-M749.
  • Dewitz T.S., Hung T.C., Martin R.R., McIntire L.V. Mechanical trauma in leukocytes // J.Lab.Clin.Med.-1977.-Vol.90,N4.-P.728-736.
  • Dewitz T.S., Martin R.R., Solis R.T., et al. Microaggregate formation in whole blood exposed to shear stress // Microvasc.Res.-1978.-Vol.16,N2.-P.263-271.
  • Dey K., Mazumdar H. On the effective viscosity of blood flowing through an artery // J.Theor. and Appl.Mech.-1994.-Vol.25,N3.-P.82-88.
  • Dey K.N., Mazumdar H.P. On micropolar fluid model for blood flow through an artery with mild stenosis // Eng.Trans.-1995.-Vol.43,N3.-P.475-486.
  • Di Perri T. Blood cells and thrombosis: the rheology and activation of the coagulative process // Adv.Hemostasis and Thromb.- New York; London.-1985.-P.93-102.
  • Di Perri T., Forconi S., Agnusdei D., Guerrini M., Laghi Pasini F. The effects of intravenous isoxuprine on blood viscosity in patients with occlusive peripheral arterial disease // Brit.J.Pharmacol.-1978.-Vol.5,N3.-P.255-260.
  • Di Perri T., Laghi Pasini F., Ralli L., Pecchi S., De Franco V., Damiani P., Domini L., Materazzi M., Monaci A., Franchi M., Burresi A., Landini F., Pieragalli D., Acciavatti A., Galigani C., Effect of controlled physical activity on haemorheological and metabolic changes in POAD patients // Clin.Hemorheol.-1988.-Vol.8,N5.-P.737-750.
  • DiGiovanni P.R., Manoushagian B., Einav S., Berman H.J. An improved laser Doppler microscope for measurement of in vivo velocity distributions in the microcirculation // Proc.4th New Engl.Bioeng.Conf.-1976.-P.113-116.
  • Diaz A.J., Barthes-Biesel D. Entrance of a cell into a pore // ICTAM 2000. Abstract Book. - Chicago.-2000.-P.124.
  • Diller K.R., Bradley D.A. Measurement of the water permeability of single human granulocytes on a microscopic stopped-flow mixing system // Trans.ASME: J.Biomech.Eng.-1984.-Vol.106,N4.-P.384-393.
  • Diller T.E. Augmentation of oxygen diffusion in blood due to shear induced red blood cell motion: S.M.Thesis, MIT-1974.
  • Diller T.E. Comparison of red cell augmented diffusion and platelet transport // Trans.ASME: J.Biomech.Eng.-1988.-Vol.110,N2.-P.161-163.
  • Diller T.E., Mikic B.B. Oxygen diffusion in blood: a translational model of shear-induced augmentation // Trans.ASME: J.BIomech.Eng.-1983.-Vol.105,N4.-P.346-352.
  • Diller T.E., Mikic B.B., Drinker P.A. Shear-induced augmentation of oxygen transfer in blood // Trans.ASME: J.BIomech.Eng.-1980.-Vol.102,N1.-P.67-72.
  • Diller T.E., Pattantyus I.A., Britts W.C. Augmentation and facilitation of oxygen transfer in flowing hemoglobin solutions // Adv Exp Med Biol.-1984.-Vol.180.-P.545-554.
  • Ding L.H., Gupta B.B., Jaffrin M.Y. Augmentation de filtration en plasmapherese par debit sanguine pulse // J.Biophys.et Biomec.-1985.-Vol.9,N4.-P.340-341.
  • Ding L.H., Jaffrin M.Y., Gupta B.B. A model of hemolysis in membrane plasmapheresis // ASAIO Trans.-1986.-Vol.32,N1.-P.330-333.
  • Dintenfass L. A new outlook on body fluid viscosity and cell function: concluding remarks and discussion // Biorheology.-1990.-Vol.27,N3/4.-P.611-616.
  • Dintenfass L. Aggregation of red cells and blood viscosity under near-zero gravity // Biorheology.-1979.-Vol.16,N1/2.-P.29-36.
  • Dintenfass L. Aggregation of red cells and blood viscosity under zero gravity: experiments on STS 51-C and STS 26 // 1st World Congr.Biomech. Vol.2. - La Jolla,Ca.,.-1990.-P.294.
  • Dintenfass L. Aggregation of red cells in disease: some deductions and speculations based on results of "ARC" experiment on the space shuttle "DISCOVERY" STS 51-C // Biorheology.-1988.-Vol.25,N1/2.-P.65-76.
  • Dintenfass L. Background and development of the space project on "Aggregation of Red Cells" // Australas.Phys.Eng.Sci.Med.-1983.-Vol.6,N4.-P.156-165.
  • Dintenfass L. Blood Microrheology, Viscosity factors in Blood Flow, Ischaemia and Thrombosis. - London: Butterworths; New York: Appleton-Century-Crofts-1971, 444 p.
  • Dintenfass L. Blood as a near-"ideal" emulsion: a retrospective on the concept of the red cell as a fluid drop, its implications for the structure of the red cell membrane // Biorheology.-1990.-Vol.27,N2.-P.149-161.
  • Dintenfass L. Blood viscosity, Hyperviscosity and Hyperviscosaemia. - Lancaster etc.: MTP Press-1985, 482 p. Dintenfass L. Considerations of the internal viscosity of the red cell and of the rheology of the red cell membrane, and of the effect of these factors on blood flow // Biorheology.-1970.-Vol.6,N4.-P.275.
  • Dintenfass L. Dynamic blood coagulation: effect of velocity gradient on the clotting times, rheology and morphology of clots and thrombi in normals and patients // Biorheology.-1970.-Vol.6,N4.-P.273-274.
  • Dintenfass L. Erythrocyte aggregation and cardiovascular risk factors // Clin.Hemorheol.-1988.-Vol.8,N2.-P.237-258.
  • Dintenfass L. Erythrocyte sedimentation rate: a new correction for anaemia // Biorheology.-1970.-Vol.6.-P.270.
  • Dintenfass L. Erythrocyte sedimentation rates: a tentative correction for haematocrit // Reol.Acta.-1974.-Vol.13,N6.-P.936-943.
  • Dintenfass L. Execution of "ARC" experiment on space shuttle "Discovery" STS 51-C: some results on aggregation of red blood cells under zero gravity // Biorheology.-1986.-Vol.23.-P.331-347.
  • Dintenfass L. Experiment on STS 51-C: effect of weightlessness on the morphology of aggregation of human red cells in disease. - Rept.38th Congr.Int.Astronaut.Fed.-Brighton,1987,Oct.10-17-1987.
  • Dintenfass L. First experiment on aggregation of red cells and blood viscosity under zero gravity on STS 51-C, January 24, 1985 // Clin.Hemorheol.-1985.-Vol.5,N2.-P.171-172.
  • Dintenfass L. Hyperviscosity in Hypertension. - Sydney etc.: Pergamon Press-1981, 250 p.
  • Dintenfass L. Influence of plasma proteins on the in vivo and in vitro rheological properties of blood // Clin.Hemorheol.-1983.-Vol.3,N2.-P.121.
  • Dintenfass L. Influence of plasma proteins on the in vivo and in vitro rheological properties of blood // Clin.Hemorheol.-1985.-Vol.5,N3.-P.191-206.
  • Dintenfass L. Methods and instrumentation used in practice of clinical haemorheology // Biorheology.-1984.-Vol.21,NSuppl.1.-P.63-69.
  • Dintenfass L. Microrheology of blood in health and disease // Proc.5th Int.Congr.Rheol.Vol.2.-Tokyo;Baltimore.-1970.-P.27-59.
  • Dintenfass L. Mystery of red cell aggregation under zero gravity on STS 51-C // Med.J.Austral.-1985.-Vol.143.-P.281-283.
  • Dintenfass L. Red cells under zero gravity // Lancet.-1985.-Vol.1.-P.747-748.
  • Dintenfass L. Rheology of Blood in Diagnostic and Preventive Medicine. - London; Boston: Butterworths-1976, 396 p.
  • Dintenfass L. Second experiment on aggregation of red cells and blood viscosity under zero gravity: on STS 26, Sept/Oct 1988 // Clin.Hemorheol.-1989.-Vol.9,N4.-P.677-680.
  • Dintenfass L. Blood viscosity factors in diagnostic and preventive medicine // Red Cell Interaction with Microcirculation. Vol.1.- New York; London.-1976.-P.142-143.
  • Dintenfass L. Theoretical aspects and clinical application of the blood viscosity equation containing a term for the internal viscosity of red blood cell // Blood Cells.-1977.-Vol.3,N2.-P.362-374.
  • Dintenfass L. Clinical applications of blood viscosity // Biorheology.-1979.-Vol.16.-P.69-84.
  • Dintenfass L. A study in rheology of blood clotting in human subjects // Proc.4th Int.Congr.Rheol. Pt.4. Symp.on Biorheol.- New York etc.-1965.-P.593-600.
  • Dintenfass L., Francis D., Willard A. Measurement of kinetics and morphology of aggregation of red cells in a slit-photo-viscometer // Biorheology.-1983.-Vol.20,N4.-P.426.
  • Dintenfass L., Fu-lung L. Plasma and blood viscosities, and aggregation of red cells in racehorses // Clin.Phys.Physiol.Meas.-1982.-Vol.3,N4.-P.293-301.
  • Dintenfass L., Fu-lung L. Effect of flow instability on viscosity of blood measured in rotational viscometer // Biorheology.-1981.-Vol.18.-P.191-205.
  • Dintenfass L., Fu-lung L., Francis D., Willard A. Quantitative study of morphology of aggregation of red cells in patients blood and in the reconstituted suspensions // Clin.Hemorheol.-1984.-Vol.4,N2/3.-P.223-236.
  • Dintenfass L., Jedrzejczyk H., Maguire B., Cherry S. Aggregation of red cells and blood viscosity under zero gravity: report on experiments on the space shuttle "Discovery" STS 26 in sept/oct 1988 // Biorheology.-1989.-Vol.26,N3.-P.562.
  • Dintenfass L., Lake B. Blood viscosity factors in evaluation of submaximal work output and cardiac activity in patients with myocardial infarction and angina, and in normals // Bibl.Anat.-1977.-Vol.16.-P.498-500.
  • Dintenfass L., Maguire B., Jedrzejczyk H., Cherry S. Instrumentation for, and execution of "ARC" project on the space shuttle 'Discovery' STS 26: aggregation of red cells // 1st World Congr.Biomech. Vol.2. - La Jolla,Ca.,.-1990.-P.293.
  • Dintenfass L., Osman P., Jedrzejczyk H. Experiment on the Space Shuttle flight STS 51C: aggregation of red blood cells in disease // Australas.Phys.and Eng.Sci in Med.-1985.-Vol.8,N3.-P.110-115.
  • Dintenfass L., Osman P., Jedrzejczyk H. First haemorheological experiment on NASA Space Shuttle 'Discovery' STS 51-C: aggregation of red cells // Clin.Hemorheol.-1985.-Vol.5.-P.917-936.
  • Dintenfass L., Osman P., Jedrzejczyk H., Maguire B. First haemorheological experiment on the NASA Space Shuttle "Discavery" STS 51-C: two-dimensional aggregation of red cells in a 12.5 mcm slit capillary // Microcirculation-an Update.Vol.1. - Amsterdam etc.-1987.-P.479-480.
  • Dintenfass L., Osman P., Maguire B. Measurement of aggregation of red cells in space - a project for the NASA Space Shuttle // J.Elec.and Electron.Eng.Austral.-1984.-Vol.4,N2.-P.118-125.
  • Dintenfass L., Osman P., Willard A. Automated instrument for quantitative studies of kinetics of aggregation of red blood cells under zero gravity // Trans.Inst.of Engineers Austral. GE9.-1985.-Vol.1.-P. 2-25.
  • Ditzel J. The nature of the intravascular erythocyte aggregation in disease with particular reference to diabetes melitus // Acta Med.Scand.-1955.-Vol.152,N5.-P.371-378. Ditzel J. Relation of blood protein composition to intravascular erythrocyte aggregation (sludged blood): clinical and experimental studies // Acta Med.Scand.-1969.-Vol.164,NSuppl.344.-P.1-63.
  • Djodjosugito A.M., Folkow B., Oberg B., White S. A comparison of blood viscosity measured in vitro and in vascular bed // Acta Physiol.Scand.-1970.-Vol.78,N1.-P.70-84.
  • Djordjevich L., Klashani A., Miller T.F., Ivankovich A.D. Viscosity of synthetic erythrocyte suspensions // Proc.38th ACEMB.- Washington, DC.-1985.-P.237.
  • Dobashi T., Goto H., Sakanishi A., Oka S. Erythrocyte sedimentation rate. I. Volume fraction dependence in saline solution // Biorheology.-1987.-Vol.24,N2.-P.153-162.
  • Dobashi T., Goto H., Sakanishi A., Oka S. Erythrocyte sedimentation rate. II. Effect of angle of tilt in saline solution // Biorheology.-1985.-Vol.22.-P.373.
  • Dobashi T., Goto H., Sakanishi A., Oka S. Erythrocyte sedimentation rate. II. Effects of tilt angle in saline solution // Biorheology.-1988.-Vol.25,N1/2.-P.157-164.
  • Dobashi T., Sakanishi A., Goto H., Toyama Y., Oka S. Erythrocyte sedimentation rate. III. Tube diameter dependence in saline solution // Biorheology.-1988.-Vol.25,N3.-P.545-554.
  • Dobashi T., Sanda Y., Akaiwa R., Sakanishi A. Osmotic behavior of red blood cell as seen with an ultrasonic method // Biorheology.-1988.-Vol.25,N3.-P.527-538.
  • Doerschuk C.M., Downey G.P., Doherty D.E., English D., Gie R.P., Ohgami M., Worthen G.S., Henson P.M., Hogg C.A. Leukocyte and platelet margination within microvasculature of rabbit lungs // J.Appl.Physiol.-1990.-Vol.68,N5.-P.1956-1961.
  • Doffin J., Lancella F., Perrault R. Model of blood rheological properties depending on stress and time // Biorheology.-1989.-Vol.26,N3.-P.624.
  • Doffin J., Perrault R., Garnaud G. Blood viscosity measurements in both extensional and shear flow by a falling ball viscometer // Biorheology.-1983.-Vol.20,N6.-P.815.
  • Doffin J., Perrault R., Garnaud G. Blood viscosity measurements in both extensional and shear flow by a falling ball viscometer // Biorheology.-1984.-Vol.21,NSuppl.1.-P.89-93.
  • Dognon A. Granulometric optique de la suspension sanguine. Nouvelle technique d'\'etude // C.r.Acad.Sci.-1969.-Vol.D268,N6.-P.974-975.
  • Donath E., Voigt A. Electrophoretic mobility of human erythrocytes. On the applicability of the charged layer model // Biophys J.-1986.-Vol.49,N2.-P.493-499.
  • Doncheva N., Kerekovska M., Vassileva D., Ivanova V. Rheological changes in patients with hyperlipoproteinemia // ДЃ™Ђ.БкЂ£.АН.-1996.-Vol.49,N3.-P.119-121.
  • Dong C., Chadwick R.S., Schechter A.N. Influence of sickle hemoglobin polymerization and membrane properties on deformability of sickle erythrocytes in the microcirculation // Biophys.J.-1992.-Vol.63,N3.-P.774-783.
  • Dong C., Schmid-Schoenbein G.W., Skalak R. Rheological behavior of leukocytes // 1985 Biomech.Symp. - New York.-1985.-P.163-166.
  • Dong C., Skalak R. Leukocyte deformability: Finite element modeling of large viscoelastic deformation // J.Theor.Biol.-1992.-Vol.158,N2.-P.173-193.
  • Donner M. Approaches of erytrocyte aggregation by optical techniques // Biorheology.-1989.-Vol.26,N3.-P.486.
  • Donner M., Mills P., Stoltz J.F. Influence of plasma proteins on erythrocyte aggregation // Clin.Hemorheol.-1989.-Vol.9,N5.-P.715-722.
  • Donner M., Muller S., Stoltz J.F. Fluorescence depolarization method in the study of dynamic properties of blood cells // Biorheology.-1990.-Vol.27,N3/4.-P.367-374.
  • Donner M., Siadat M., Stoltz J.F. Erythrocyte aggregation: approach by light scattering determination // Biorheology.-1988.-Vol.25.-P.367-375.
  • Donner M., Stoltz J.F. Comparative study on fluorescent probes distributed in human erythrocytes and platelets // Biorheology.-1985.-Vol.22,N5.-P.385-397.
  • Dormandy J. Fahraeus Award Lecture: The dangerous red cell // Clin.Hemorheol.-1984.-Vol.4,N2/3.-P.115-132.
  • Dormandy J. Hemorheology and thrombosis // Adv.Hemostasis and Thromb.- New York; London.-1985.-P.79-91.
  • Dormandy J. The dangerous red cell // Clin.Hemorheol.-1984.-Vol.4,N2-3.-P.115-132.
  • Dormandy J., (ed.) Red Cell Deformability and Filterability. - Boston etc.: Nijhoff-1983, 223 p.
  • Dormandy J., Barnes A., Goyle K. Physical properties of blood in relation to the circulation // Bibl.Anat.-1977.-Vol.16.-P.196-198.
  • Dormandy J., Barnes A., Reid I. Abnormal red cell deformability in patients with peripheral ischemia // Bibl.Anat.-1977.-Vol.16.-P.247--.
  • Dormandy J., Flute P.T., Prymak-Michelinski S.M., Reid H. Erythrocyte deformability and blood viscosity in peripheral circulatory disease // J.Physiol.-1978.-Vol.275,N1.-P.19-20.
  • Dormandy J., Hoare E., Khattab A.H., et al. Prognostic significance of rheological and biochemical findings in patient with intermittent claudication // Brit.Med.J.-1973.-Vol.4,N5892.-P.581-583.
  • Dormandy J., Postlethwaite J., Goyle K. Hemorheological therapy // Bibl.Anat.-1977.-Vol.16.-P.481-483.
  • Dormandy J.A., Ernst E. Arpad Matrai (1949-1988) // Clin.Hemorheol.-1988.-Vol.8,N5.-P.569-570.
  • Dormandy J.A., Yates C.J.P., Berent G.A. Clinical relevance of blood viscosity and red cell deformability including newer therapeutic aspects // Angiology.-1981.-Vol.32.-P.236-242.
  • Doroszewski J., Duszyk M. [Characteristics of the erythrocyte movement in the vicinity of the flow chamber wall] // Acta Haematol Pol.-1979.-Vol.10,N4.-P.243-249.
  • Dorrington K.L., Johnston B.S. The erythrocyte sedimentation rate time curve: critique of established solution // J.Biomech.-1983.-Vol.16,N1.-P.99-100.
  • Dorudi S., Ribitsch V. Influence of membrane mechanical properties on the viscoelasticity of blood // Biorheology.-1995.-Vol.32,N2-3.-P.300-301.
  • Dosne A.M., Merville G., Drouet L., Antonini G., Guiffant G., Quemada D. Importance of transport mechanisms in circulating blood for platelet deposition on arterial subendothelium // Microvasc.Res.-1977.-Vol.14,N1.-P.45-52.
  • Douplich A.Y., Gordeev Y.W., Yaroslavsky I.V. Calculation of specific power density of blood for intravenous low level laser therapy // SPIE Proceeding.-1992.-Vol.1981.-P.240-245.
  • Downey G.P., Doherty D.E., Schwab B., Elson E.L., Henson P.M., Worthen G.S. Retention of leukocytes in capillaries: role of cell size and deformability // J.Appl.Physiol.-1990.-Vol.69,N5.-P.1767-1778.
  • Drasler W.J., Smith C.M., Keller K.H. Viscoelastic properties of the oxygenated sickle erythrocyte membrane // Biorheology.-1989.-Vol.26,N5.-P.935-949.
  • Drasler W.J., Smith C.M., Keller K.H. Viscoelasticity of packed erythrocyte suspensions subjected to low amplitude oscillatory deformation // Biophys.J.-1987.-Vol.52,N3.-P.357-366.
  • Drew D.A. The force on a small sphere in slow viscous flow // J.Fluid Mech.-1978.-Vol.88.-P.393-400.
  • Drew D.A. The lift force on a small sphere in the presence of a wall // Chem.Eng.Sci.-1988.-Vol.43.-P.769-773.
  • Driels M.R., Ayyash S. Drag reduction in laminar flow // Nature.-1976.-Vol.259,N5542.-P.389-390.
  • Driessen G., Inhoffen W., Schweiger B., Haest C.W.M., Kamp D., Heidtmann H., Schmid-Schonbein H. Resistance to flow of rigidified red blood cells in capillaries // Bibl.anat.-1981,N20.-P.153-156.
  • Driss F., Darcet Ph., Delhaye N., Mendy F. Effect of eicosapentaenoic acid on RBC filterability and fatty acid composition // Clin.Hemorheol.-1988.-Vol.8,N5.-P.679-686.
  • Drochon A., Barthes -Biesel D., Lacombe C., Lelievre J.C. Filtration of viscous cells through pores // 1st World Congr. Biomech. Vol.2. - La Jolla, Ca.-1990.-P.139.
  • Drochon A., Barthes-Biesel D., Bucherer C., Lacombe C., Lelievre J.C. Viscous filtration of red blood cell suspensions // Biorheology.-1993.-Vol.30,N1.-P.1-8.
  • Drochon A., Leyrat-Maurin A., Barthes-Biesel D. Motion of a capsule through a constriction: a model for red blood cell filtration // 18th Int.Congr.Theor.and Appl.Mech. Aug.22-28,1992. Haifa, Israel. Abstracts.- Haifa.-1992.-P.48.
  • Drumheller P.D., VanWie B.J., Petersen J.N., Oxford R.J., Schneider G.W. The effects of RPM and recycle on separations efficiency in a clinical blood. Blood cell centrifuge // Trans.ASME:J.Biomech.Eng.-1987.-Vol.109,N4.-P.324-329.
  • Dubin S., Hunt P. Effects of anticoagulants and glucose on refractometric estimation of protein in canine and rabbit plasma // Lab.An.Sci.-1978.-Vol.28.-P.541-544.
  • Dubin S., Piszczek E., Beard R., Schmukler R. Effects of anticoagulants on packed cell volume measurements // Lab.An.Sci.-1976.-Vol.26.-P.587-591.
  • Dubini G., Pietrabissa R., Montevecchi F.M. Numerical analysis of the radial migration of red blood cells in small arteries // Int. Soc. Biomech. XIV Congr. Abstrs. Vol.1. - Paris.-1993.-P.356-357.
  • Duchesne-Gueguen M., Durand F., Le Pogamp P., Garry J., Le Goff M.-C., Joyeux V., Chevet D., Genetet B. Study of hemorheological parameters in patients with chronic renal failure and evolution of those parameters in the course of dialysis treatment // Clin. Hemorheol.-1988.-Vol.8,N3/4.-P.407-414.
  • Dufaux J., Durussel J.J., Othmane A. In vitro and in vivo study of the role of red blood cell aggregation in capillary flow: pharmacology applications // Clin.Hemorheol.-1989.-Vol.9,N5.-P.797-808.
  • Dufaux J., Quemada D., Mills P. Determination of rheological properties of red blood cells by Couette viscometry // Rev.Phys.Appl.-1980.-Vol.15,N8.-P.1367-1374.
  • Duic L., Srinivasan S., Sawyer P.N. Electrochemical behaviour of blood coagulation factors.Protrombin and Thrombin // J.Electrochem.Soc.-1973.-Vol.120,N3.-P.348-353.
  • Dumas A., Barozzi G.S. Laminar heat transfer to blood flowing in a circular duct // Int.J.Heat Mass Transfer.-1984.-Vol.27,N3.-P.391-398.
  • Dungan S.R., Brenner H. Sedimentation and dispersion of non-neutrally buoyant Brownian particles in cellular circulatory flows simulating local fluid agitation // Phys.Rev.A.-1989.-Vol.38,N7.-P.3601-3608.
  • Dunleavy M.J., Leonard E.F., Vassilieff C.S. The rate of shear during membrane plasmapheresis: a dynamic approach // ASAIO Trans.-1984.-Vol.30.-P.657.
  • Dunlop M.J., Lee M.M., Canham P.B., Taylor C.P.S. Kinetics of adhesive interaction in vitro of human erythrocytes in plasma // Microvasc Res.-1984.-Vol.28,N1.-P.62-74.
  • Dupont P.A., Sirs J.A. The relationship of plasma fibrinogen, erythrocyte flexibility and blood viscosity // Thromb.and Haemost.-1977.-Vol.38,N3.-P.660-667.
  • Dupuy-Fons C., Brun J.F., Pellerin F., Laborde J.C., Bardet L., Orsetti A., Jabon C. Relationships between blood rheology and transcutaneous oxygen pressure in peripheral occlusive arterial disease // Clinical Hemorheology.-1995.-Vol.15,N2.-P.191-200.
  • Durocher J.R., Payne R.C., Conrad M.E. Role of sialic acid in erythrocyte survival // Blood.-1975.-Vol.45,N1.-P.11-20.
  • Durussel J.-J., Colinard P. La rheologie du sang // Biofutur.-1997,N167.-P.10-12.
  • Durussel J.-J., Colinard P. La rheologie du sang // Biofutur.-1997,N167.-P.10-12.
  • Durussel J.-J., Colinard P. La rheologie du sang // Biofutur.-1977,N167.-P.10-12.
  • Durussel J.J., Dufaux J., Laurent A., Penhouet L., Bailly A.L., Bonneau M., Merland J.J. Comparative viscosity and erythrocytes disaggregation shear stress of blood-radiographic contrast media mixtures in three mammalian species // Clin Hemorheol Microcirc.-1997.-Vol.17,N4.-P.261-269.
  • Duszyk M. Mathematical model of the cell-cell specific adhesion // Post.biol.komorki.-1984.-Vol.11.-P.381-382.
  • Duszyk M., Doroszewski J. Hydrodynamics of interaction of particles (including cells) with surfaces // Progr.Surface Sci.-1984.-Vol.15,N3.-P.369-399.
  • Duszyk M., Doroszewski J. Poiseuille flow method for measuring cell-to-cell adhesion // Cell Biophys.-1986.-Vol.8.-P.119-130.
  • Dutta A., Tarbell J.M. Influence of non-Newtonian behavior of blood on flow in an elastic vessel // Trans.ASME: J.Biomech.Eng.-1996.-Vol.118,N1.-P.111-119.
  • Duvivier C., Arnould J.P., Malher E., Fourneau C., Stoltz J.F. A technique for continuously measuring filtration resistance at constant pressure // Biorheology.-1984.-Vol.21,NSuppl.1.-P.271-274.
  • Dwivedi A.P., Pal T.S., Rakesh L. Micropolar fluid model for blood flow through a small tapered tube // Indian J. Technol.-1982.-Vol.20,N8.-P.295-299.
  • Dworkin M., Keller K.H. Solubility and diffusion coefficient of adenosine 3':5'-monophosphate // J Biol Chem.-1977.-Vol.252,N3.-P.864-865.
  • Dyson M., Woodward B., Pond J.B. Flow of red blood cells stopped by ultrasound // Nature.-1971.-Vol.232,N5312.-P.572-573.
  • Dziubinski M., Petera J. Laminar flow of some inelastic time-dependent fluids in pipes // Rheol.acta.-1984.-Vol.23,N3.-P.261-265.
  • Eastham R.D. The erythrocyte sedimentation rate and plasma viscosity // J.Clin.Path.-1954.-Vol.7.-P.164.
  • Easthope P. A three-dimensional dyadic Walburn-Schneck constitutive equation for blood // Biorheology.-1989.-Vol.26,N1.-P.37-44.
  • Ebrahimzadeh P.R., Bazargani F., Aizal F., Hogfors C., Braide M. A subpopulation analysis of F-MLP stimulated graiiulocytes migrating in filters // Biorheology.-1996.-Vol.33,N3.-P.231-250.
  • Eckstein E.C. Particle migration in a linear shear flow: Ph.D.Thesis, MIT-1975.
  • Eckstein E.C. Phenomenological laws for platelet transport // 1981 Biomech.Symp. - New York.-1981.-P.61-64.
  • Eckstein E.C. Physical explanation of near wall excesse of platelets // Ann.Biomed.Eng.-1993.-Vol.21,Nsup.1.-P.43.
  • Eckstein E.C. Rheophoresis--a broader concept of platelet dispersivity // Biorheology.-1982.-Vol.19,N6.-P.717-724.
  • Eckstein E.C., Bailey D.G., Shapiro A.H. Dispersive particle migration in the linear shear flow of a slurry // Proc.28th Annu.Conf.Eng.Med.Biol.-Washington.-1975.-P.430.
  • Eckstein E.C., Bailey D.G., Shapiro A.H. Self-diffusion of particles in shear flow of a suspension // J.Fluid Mech.-1977.-Vol.79.-P.191-208.
  • Eckstein E.C., Beck M.R. Platelet concentration in blood flow through capillary tubes // Biofluid Mech. - Blacksburg,Va.-1978.-P.9-18.
  • Eckstein E.C., Belgacem F. Model of platelet transport in flowing blood with drift and diffusion terms // Biophys J.-1991.-Vol.60,N1.-P.53-69.
  • Eckstein E.C., Bilsker D.L., Waters C.M., Kippenhan J.S., Tilles A.W. Transport of platelets in flowing blood // Ann N Y Acad Sci.-1987.-Vol.516.-P.442-452.
  • Eckstein E.C., Calvez A.C., Chen X. Shear-induced dispersion and redistribution of platelet-sized beads in blood flow: improved methods and an estimated profile for the coefficient of effective diffusivity // Biorheology.-1995.-Vol.32,N2-3.-P.225-226.
  • Eckstein E.C., Corattiyl V., Rosenberg D.N. Circuit for improved measurements of platelet volume distributions in whole blood samples // Med Biol Eng Comput.-1985.-Vol.23,N4.-P.393-395.
  • Eckstein E.C., Koleski J.F., Waters C.M. Concentration profiles of 1 and 2.5 microns beads during blood flow. Hematocrit effects // ASAIO Trans.-1989.-Vol.35,N3.-P.188-190.
  • Eckstein E.C., Tilles A.W., Millero F.J. Conditions for the occurrence of large near-wall excesses of small particles during blood flow // Microvasc Res.-1988.-Vol.36,N1.-P.31-39.
  • Edgerton R.H. Conductivity of sheared suspensions of ellipsoidal particles with application to blood flow // IEEE Trans.Biomed.Eng.-1974.-Vol.BME-21,N1.-P.33-43.
  • Edwards M.F., Nellist D.A., Wilkinson W.L. Pulsating flow of non-Newtonian fluids in pipes // Chem.Eng.Sci.-1972.-Vol.27,N3.-P.545-553.
  • Edwards M.F., Nellist D.A., Wilkinson W.L. Unsteady, laminar flows of non-newtonian fluids in pipes // Chemical Eng.Sci.-1972.-Vol.27,N2.-P.295-306.
  • Effros R.M., Chang R.S.Y., Silverman P. Effect of osmolarity on red blood cell viscosity and transit through the lung // J.Appl.Physiol.-1977.-Vol.42,N6.-P.941-945.
  • Eggleton C.D., Popel A.S. Large deformation of red blood cell ghosts in a simple shear flow // Phys.Fluids.-1998.-Vol.10,N8.-P.1834-1845.
  • Ehrlich L.W., Friedman M.H. Steady convective diffusion in a bifurcation // IEEE Trans.Biomed.Eng.-1977.-Vol.BME-24,N1.-P.12-17.
  • Ehrly A.M. Evaluation of enzymatic defibrinogenation // Clin.Hemorheol.-1984.-Vol.4,N2/3.-P.151-158.
  • Ehrly A.M. Hemorheological therapy by fibrinogen-lowering drugs // Clin.Hemorheol.-1983.-Vol.3,N6.-P.550.
  • Ehrly A.M. Reduction of blood viscosity at low rates of shear by surface active substances: anew hemorheologic phenomena // Biorheology.-1968.-Vol.5,N3.-P.209-214.
  • Ehrly A.M. Improvement of the flow properties of blood: a new therapeutic approach in occlusive arterial disease // Angiology.-1976.-Vol.27,N3.-P.188-196.
  • Ehrly A.M. Veranderungen der Fliesseigenschaften des BBlutes und der Erythrozyten bei arteriellen Verschlusserkrankungen // Exogene Faktoren arteriellen Gef\"asserkrankungen und ven\"sen Thrombosen.- Stuttgart; New York.-1976.-P.163-167.
  • Ehrly A.M., Glatz A. Influence of surface active substances on the flow properties of hyperosmolar blood // Bibl.Anat.-1975.-Vol.13.-P.99-103.
  • Ehrly A.M., Jung G. Circadian rhytm of human blood viscosity // Biorheology.-1973.-Vol.10,N4.-P.577-583.
  • Ehrly A.M., Saeger-Lorenz K. Increased capillary flow rate of erythrocytes in hyperosmolar human blood by the addition of pentoxifylline // Microcirculation. Vol.1.- New York; London.-1976.-P.165-166.
  • Ehrly A.M., Witte S., Copley A.L. Preface: 6th European Conference on Clinical Haemorheology // Clin.Hemorheol.-1989.-Vol.9,N3.-P.393-394.
  • Eichhorn J.-L. Laser Doppler anemometry on individual red blood cells // Biorheology.-1982.-Vol.19.-P.621-629.
  • Eichhorn R., Small S. Experiments on the lift and drag of spheres suspended in a Poiseuille flow // J.Fluid Mech.-1964.-Vol.20.-P.513-527.
  • Einav S., Berman H.J., Fuhro R.L., DiGiovannis P.R., Fine S., Fridman J.D. Measurement of velocity profiles of red blood cells in the microcirculation by Laser Doppler Anemometry (LDA) // Biorheology.-1975.-Vol.12,N3-4.-P.207-210.
  • Einav S., Roshu M. Long chain polymers: their effects on pulsatile blood flow in elastic tubes // Biorheology.-1978.-Vol.15,N5/6.-P.490..
  • Ejima J., Ijichi T., Ohnishi Y., Maruyama T., Kaji Y., Kanaya S., Fujino T., Uyesaka N. Relationship of red blood cell filterability and lipid profile in normal subjects // Biorheology.-1996.-Vol.33,N4-5.-P.434.
  • El-Zanati E.M., Shawki A.M., Oshan M.M., Saada M.Y. Fluid dynamics of human blood in branched systems // Egypt.J.Biomed.Eng.-1980.-Vol.1,N1.-P.63-75.
  • Elbaum D., Herskovits T.T. Dissociation of human hemoglobin by the ureas and amides. Osmotic pressure and light scattering studies // Biochemistry.-1974.-Vol.13,N6.-P.1268-1278.
  • Eliasson R., Samelius-Broberg U. The effect of dextran and some other colloids on the suspension stability of blood from different apecies // Acta Physiol. Scand.-1965.-P.245-250.
  • Ellory J.C., Player M., Chalder S.M., Stuart J. Rheological effect of activation of the KCl-cotransporter pathway in normal and sickle erythrocytes // Clin.Hemorheol.-1989.-Vol.9,N6.-P.1009-1016.
  • Elmer O., Goransson G., Zoucas E., Bengmark S. Effects of ethanol on platelet aggregation: an in vitro study // Res Exp Med (Berl).-1983.-Vol.182,N1.-P.13-19.
  • Elson E.L., Pasternak C., Lui Z.-Y., Young J.-I., Schwab I.I.I. B., Worthen G.S., Downey G., Michaels G.S., McConnaughey W.B., McDaniel M., Wolf B., Zahalak G.I. Activation of mechanical responses in leukocytes // Biorheology.-1990.-Vol.27,N6.-P.849-858.
  • Enden G., Popel A.S. A numerical study of plasma skimming in small vascular bifurcations // Trans ASME: J Biomech Eng.-1994.-Vol.116,N1.-P.79-88.
  • Enden G., Popel A.S. A numerical study of the shape of the surface separating flow into branches in microvascular bifurcations // Trans ASME: J Biomech Eng.-1992.-Vol.114,N3.-P.398-405.
  • Endrich B., Oda T. Influence of blood rheology on blood flow in the amelanotic melanoma of the hamster // Biorheology.-1983.-Vol.20,N4.-P.395.
  • Engbers G.H.M., Dost L., Hennink W.E., Aarts P.A.M.M., Sixma J.J., Feijen J. An invitro study of the adhesion of blood platelets onto vascular catheters. Pt.1 // J.Biomed.Mater.Res.-1987.-Vol.21,N5.-P.613-627.
  • Engstrom K.G. A new red blood filtration device with improved time resolution and its application to the impaired RBC deformability in diabetic ob/ob mouse // Biorheology.-1989.-Vol.26,N4.-P.711-722.
  • Engstrom K.G., Taljedal I.-B. Increased size and biconcavity in red blood cells of obese-hyperglycaemic mice // Biorheology.-1988.-Vol.25,N4.-P.625-638.
  • Enns E.G., Fung T.S., Rowlands S., Sewchand L.S. Planar Brownian motion in the presence of an attractive force // Cell Biophys.-1983.-Vol.5,N3.-P.189-195.
  • Enson Y., Briscoe W.A., Polanyu M.L., Cournand A. In vivo studies with an intravascular and intracardiac reflection oximeter // J.Appl.Physiol.-1962.-Vol.17,N3.-P.552-558.
  • Eringen A.C. Theory of micropolar fluids // J. Math. Mech.-1966.-Vol.16,N1.-P.1-18.
  • Ernst E. Flow behavior of blood // Munch Med Wochenschr.-1983.-Vol.125,N11.-P.76-80.
  • Ernst E., Koenig W., Matrai A., Keil U. Plasma viscosity and hemoglobin in the presence of cardiovascular risk factors // Clin.Hemorheol.-1988.-Vol.8,N3/4.-P.507-516.
  • Ernst E., Magyarosy I., Roloff C., Drexel H. A new simple method for measuring red cell aggregation // Biorheology.-1983.-Vol.20,N6.-P.829.
  • Ernst E., Magyarosy I., Roloff C., Drexel H. A new simple method for measuring red cell aggregation // Biorheology.-1984,NSuppl.1.-P.217-219.
  • Ernst E., Matrai A. The measurement of plasma viscosity: experience with four commercially available instruments // Clin.Hemorheol.-1988.-Vol.8,N6.-P.851-860.
  • Ernst E., Matrai A., Dormandy J. Shear dependence of blood coagulation // Clin.Hemorheol.-1984.-Vol.4,N4.-P.395-399.
  • Ernst E., Matrai A., Roloff Ch., Magyarosy I., Andrae J. Impaired blood rheology in reflex atrophy and its normalization during physical treatment // Clin.Hemorheol.-1988.-Vol.8,N1.-P.61-66.
  • Ernst E., Monshausen C., Matrai A. Blood viscosity - a comparative study on three rotational instruments // Biorheology.-1985.-Vol.22,N6.-P.471-475.
  • Ernst E., Peter S., Matrai A., Kollar L. Hemodilution in intermittent claudication - a case report // Clin.Hemorheol.-1988.-Vol.8,N1.-P.89-92.
  • Ernst E., Schmidlechner Ch., Matrai A., Bergmann H. Snoring and blood rheology // Clin.Hemorheol.-1988.-Vol.8,N5.-P.791-792.
  • Ernst F.D. Die therapeutische Beeinflussbarkeit der Fliessfahigkeit des Blutes // Medicamentum.-1989,N88.-P.3-11.
  • Erslev A.J. Clinical erythrokinetics: a critical review // Blood Reviews.-1997.-Vol.11,N3.-P.160-167.
  • Ertepinar H., Suzen B., Ozoran A., Ozoran Y., Ceylan S., Yeginoglu G., Uremek G. Effects of drag reducing polymer on atherosclerosis // Biorheology.-1990.-Vol.27,N5.-P.631-644.
  • Escolar G., Bastida E., Castillo R., Ordinas A. Ticlopidine inhibits platelet thrombus formation studied in a flowing system // Thromb Res.-1987.-Vol.45,N5.-P.561-571.
  • Escudero C., Alvarez L., Castillo J.L. Design of a laminar flow chamber to study platelet aggregation // Life Support Syst.-1986.-Vol.4,N1.-P.41-46.
  • Esievo K.A., Saror D.I., Ilemobade A.A., Hallaway M.H. Variation in erythrocyte surface and free serum sialic acid concentrations during experimental Trypanosoma vivax infection in cattle // Res Vet Sci.-1982.-Vol.32,N1.-P.1-5.
  • Eskelinen S. The effect of cell swelling rate on the permeability and mechanical properties of the erythrocyte membrane // Biomed.Biochim.Acta.-1983.-Vol.42.-P.S97-S101.
  • Eskelinen S., Saukko P. The hypotonic hemolysis and the protective action of lysophosphattidylcholine // Biorheology.-1984.-Vol.21,N3.-P.363-377.
  • Evans D.J. Computer "experiment" for nonlinear thermodynamics of Couette flow // J.Chem.Phys.-1983.-Vol.78(6),N1.-P.3297-3302.
  • Evans E., Berk D., Leung A. Detachment of agglutinin-bonded red blood cells.I. Forces to rupture molecular-point attachments // Biophys.J.-1991.-Vol.59,N4.-P.838-847.
  • Evans E., Berk D., Leung A., Mohandas N. Detachment of agglutinin-bonded red blood cells.II. Mechanical energies to separate large contact areas // Biophys.J.-1991.-Vol.59,N4.-P.849-860.
  • Evans E., Kukan B. Passive material behavior of granulocytes based on large deformation and recovery after deformation tests // Blood.-1984.-Vol.64,N5.-P.1028-1035.
  • Evans E., Mohandas N. Developments in red cell rheology at the Institut de Pathologie Cellulaire // Blood Cells.-1986.-Vol.12,N1.-P.43-56.
  • Evans E.A. RBC mechanical properties relevant to microcirculatory flow // Biorheology.-1983.-Vol.20,N4.-P.389.
  • Evans E.A. Red blood cell membrane: two-dimensional elastomer // 1973 Biomech.Symp.Properties of Biol.Fluids and Solids: Mech.of Tissues and Organs. - New York.-1973.-P.3-4.
  • Evans R. News features: high polymers cut friction to make blood flow easier // Chem.Eng.-1970.-Vol.77.-P.70.
  • Evans S.-A. Leukocyte filterability: Comparing diluted blood with purified cell suspensions // Brit.J.Haematol.-1996.-Vol.93,N2.-P.295-298.
  • Evans S.-A., Adams R., Nash G.B. What do measurements of filterability of blood tell us about the effect of red cell aggregation on flow resistance in small vessels? // Biorheology.-1999.-Vol.36,N5-6.-P.453-455.
  • Fabre G., Saint-Blancard J., Lacombe C., Leterrrier F., Stoltz J.F. Correlation between rheological and biochemical modifications during erythrocyte storage // Clin.Hemorheol.-1983.-Vol.3,N2.-P.122.
  • Fabri T.L. Mechanism of erythrocyte aggregation and sedimentation // Blood.-1987.-Vol.70,N5.-P.1572-1576.
  • Fabry T.L. Mechanism of erythriocyte aggregation and sedimentation // Blood.-1987.-Vol.70,N5.-P.1572-1576.
  • Fahraeus R. Archaic hemorheology. The early historical significance of blood sedimentation // Proc.4th Int.Congr.Rheol.Pt.4.: Symp.Biorheol.- New York etc.-1965.-P.11-17.
  • Fahraeus R. The influence of the rouleau formation of the erythrocytes on the rheology of the blood // Acta Med.Scand.-1958.-Vol.161.-P.151-165.
  • Fahraeus R. The suspension stability of blood // Physiol.Rev.-1929.-Vol.9.-P.241-274.
  • Fahraeus R. The viscosity of normal and pathological blood // Deformat.and Flow in Biol.Systems.- Amsterdam.-1952.-P.498-499.
  • Fahraeus R., Lindquist T. The viscosity of blood in narrow capillary tubes // Amer.J.Physiol.-1931.-Vol.96,N3.-P.562-568.
  • Falade A., Brenner H. First-order wall curvature effects upon the Stokes resistance of a spherical particle moving in close proximity to a solid wall // J.Fluid Mech.-1988.-Vol.193.-P.533-568.
  • Falvo F., Ramsey C., Zongrone M., Stasiw D., Cerny L.C. The erythrocyte sedimentation rate in inclined tubes // Biorheology.-1979.-Vol.16,N6.-P.465-471.
  • Faruqui I., Otten M.D., Polimeni P.I. Protection against atherogenesis with the polymer drag reducing agent Separan AP-30 // Circulation.-1987.-Vol.75,N3.-P.627-635.
  • Fasching P., Kurzemann S., Wagner B., Wagner O., Waldhausl W., Ehringer H., Koppensteiner R. Only marginal influence of metabolic control on blood rheology in insulin-dependent diabetic patients without manifest angiopathy // Clin. Hemorheology.-1995.-Vol.15,N1.-P.3-12.
  • Fatkin D., Loupas T., Low J., Feneley M. Inhibition of red cell aggregation prevents spontaneous echocardiographic contrast formation in human blood // Circulation.-1997.-Vol.96,N3.-P.889-896.
  • Feijge M.A.H., Heemskerk J.W.M., Hornstra G. Membrane fluidity of non-activated and activated human blood platelets // Biochim.et Biophys.Acta.-1990.-Vol.1025,N2.-P.173-178.
  • Feke D.L., Schowalter W.R. The influence of brownian diffusion on binary flow-induced collision rates in colloidal dispersions // J.Coll.Interface Sci.-1985.-Vol.106,N1.-P.203-214.
  • Felderhof B.U. Hydrodynamic interactions in suspensions // Progr.Coll.and Polymer Sci.-1990.-Vol.81.-P.95-98.
  • Feo C.J., Nossal M., Bessis M., Jones E. Measurement of erythrocyte deformability as a function of osmolarity: results obtained by an osmotic-scan-ektacytometer with normal blood and hemolytic anemias // Biorheology.-1983.-Vol.20,N4.-P.405.
  • Fernandez C.A., Saidel G.M., Malchesky P.S., Zborowski M. Mechanistic model of plasma filtratfon // Med Eng Phys.-1998.-Vol.20,N5.-P.383-392.
  • Ferrari C. On a continuum model of blood flow // Recent devel. ... Fluid Mechanics.-.-1979.-P.607-615.
  • Ferretti P.G., Gelmini G., Artioli F., Marchini L., Palummeri E., Butturini L., Passeri M. Morphological study of erythrocytes changes induced by calcium and calcitonin // Clin.Hemorheol.-1988.-Vol.8,N2.-P.149-158.
  • Feuerstein I.A., Buchan S.M., Horbett T.A., Hauch K.D. Platelet adherence and detachment: a flow study with a series of hydroxyethil methacrylate-ethyl methacrylate copolymers using video microscopy // J.Biomed.Mater.Res.-1991.-Vol.25,N2.-P.185-198.
  • Feuerstein I.A., Kush J. Blood platelet surface interactions on fibrinogen under flow as viewed with fluorescent video-microscopy // Trans.ASME: J.Biomech.Eng.-1986.-Vol.108,N1.-P.49-53.
  • Feuerstein I.A., Mirza F.A. Finite element analysis of enzymatic removal of ADP from blood platelets during flow // Math.Model.Sci.and Technol.-New York etc.-1983.-P.757-761.
  • Feuerstein I.A., Skupny-Garnham L.E. Adhesion and aggregation of thrombin prestimulated human platelets: evaluation of surface-bound fibrinogen and surface-bound albumin // Thromb Res.-1986.-Vol.43,N5.-P.497-505.
  • Fiel R.J., Scheintaub H.M. Small angle light scattering by erythrocytes // J.Coll.Interf.Sci.-1971.-Vol.31,N2.-P.249-257.
  • Figdor C.G., Leemans J.M.M., Bont W.S., de Vries J.E. Theory and practice of centrifugal elutriation (CE). Factors influencing the separation of human blood cells // Cell Biophys.-1983.-Vol.5,N2.-P.105-118.
  • Fine I., Weinreb A. Multiple scattering effect in transmission pulse oximetry // Med.Biol.Eng.Comput.-1995.-Vol.33,N5.-P.709-712.
  • Finger E.B., Bruehl R.E., Bainton D.F., Springer T.A. A differential role for cell shape in neutrophil tethering and rolling on endothelial selectins under flow // J. Immunol.-1996.-Vol.157,N11.-P.5085-5095.
  • Firsov N.N., Bjelle A., Korotaeva T.V., Priezzhev A.V., Ryaboshapka O.M. Clinical application of measurement of spontaneous erythrocyte aggregation and disaggregation. A pilot study // Clinical Hemorheology and Microcirculation.-1998.-Vol.18,N2/3.-P.87-97.
  • Firsov N.N., Lapteva N.B., Levenko B.A., Priezzhev A.V., Proskurin S.G., Riaboshapka O.M. Laser scattering studies of structural and dynamic colloidal properties of protoplasm and blood // Prog.Colloid Polym.Sci.-1993.-Vol.93,N1.-P.81-84.
  • Firsov N.N., Netrebko N.V., Priezzhev A.V., Regirer S.A., Romanovsky Y.M., Stepanyan A.S. In-Vitro laser diagnostics of blood shear flows // Proc.Int.Conf.Optics in Life Sci., Garmisch-Partenkirchen, FRG, Aug. 12-16, 1990.-1990.
  • Firsov N.N., Priezzhev A.V., Ryaboshapka O.M. Aggregation and disaggregation kinetics of erythrocytes in whole blood under low-energy laser irradiation // Medical Applications of Lasers. K.Atsumi, C.Borst, F.W.Cross et.al., Editors, Proc.SPIE 2086.-1993.-P.365-370.
  • Firsov N.N., Priezzhev A.V., Ryaboshapka O.M. Dependencies of erythrocytes aggregation and disaggregation parameters on suspension hematocrit: study by backscattering nephelometry // Laser Applications in Life Sciences, P.A.Apanasevich, N.I.Koroteev, S.G.Kruglik, and V.N.Zadkov, Eds, Proc.SPIE 2370.-1995.-P.393-399.
  • Firsov N.N., Priezzhev A.V., Ryaboshapka O.M. Optical diagnostics of in vitro blood shear flow structure and dynamics // Int.Sym. on Biomedical Optics, San-Jose, USA 4-10 February 1995, Paper # 2389-73.-1995.
  • Firsov N.N., Priezzhev A.V., Ryaboshapka O.M. Study of erythrocytes aggregation kinetics in shear flow in vitro by light scattering technique // SPIE Proceeding.-1992.-Vol.1981.-P.17-25.
  • Firsov N.N., Priezzhev A.V., Ryaboshapka O.M., Sirko I.V. Aggregation properties of erythrocytes of whole blood under shear stress by backscattering nephelometry // Static and Dynamic Light Scattering in Medicine and Biology. SPIE, Vol.1884.-1993.-P.283-290.
  • Firsov N.N., Priezzhev A.V., Ryaboshapka O.M., Sirko I.V. Diagnostic potentials of laser nephelometry of aggregating erythrocytes suspension // Laser Study of Macroscopic Systems. SPIE, Vol.1922.-1993.-P.139-144.
  • Firsov N.N., Priezzhev A.V., Ryaboshapka O.M., Sirko I.V. Diagnostic potentials of laser nephelometry of aggregating erythrocytes suspensions // Laser Study of Microscopic Biosystems, J.E.I.Korppi-Tommola, Editor, Proc.SPIE 1922.-1993.-P.139.
  • Firsov N.N., Priezzhev A.V., Ryaboshapka O.M., Sirko I.V. Experience of application of nephelometry for the analysis of aggregational state of blood in a clinic of internal diseases // Biochemical Diagnostics Instumentation. SPIE, Vol.2136.-1994.-P.114-118.
  • Firsov N.N., Priezzhev A.V., Ryaboshapka O.M., Sirko I.V. Problems of the optimum design of erythronephelometer // Optics of Cells and Biotissues. SPIE, Vol.2100.-1994.-P.195-202.
  • Firsov N.N., Priezzhev A.V., Ryaboshapka O.M., Sirko I.V., Vyshlova M.A. Dependencies of erythrocytes aggregation and disaggregation parameters on suspension hematocrit: study by backscattering nephelometry // 5th Int.Conf.Laser Applications in Life Sci. SPIE Proc.Ser.Vol.2370.-1994.-P.393-401.
  • Firsov N.N., Priezzhev A.V., Stepanian A.S. Laser diagnostics of dynamic properties of blood // 1st Int.Conf.on Lasers and Med. 10-13 Oct.1989. Washington.-1989.-P.225-233.
  • Firsov N.N., Priezzhev A.V., Stepanian A.S. Laser nephelometry of erythrocytes in shear flows // Laser Applications in Life Sciences. Pt.1. - Washington.-1991.-P.350-354.
  • Fischel R.J., Brumfield R.C. Couette membrane filtration apparatus for separating suspended components in a fluid medium using high shear: П в. 4808307 США, МКИ 4 В 01 D 13/00-1989.
  • Fischel R.J., Fischel H., Shatzel A., Lange W.P., Cahill D., Gervais D., Ascher N.L. Couette membrane filtration with constant shear stress // ASAIO Trans.-1988.-Vol.34,N3.-P.375-385.
  • Fischer T.M. Cross bonding and stiffening in the red cell membrane // Biochim.et biophys.acta.-1989.-Vol.985,N2.-P.218-227.
  • Fischer T.M. On the energy dissipation in a tank-treading human red blood cell // Biophys.J.-1980.-Vol.32,N5.-P.863-868.
  • Fischer T.M. embrane cross bonding - a method to prepare red blood cells which cannot tank tread but are still deformable // Biorheology.-1983.-Vol.20,N4.-P.425.
  • Fischer T.M., Haest C.W.M., St\"ohr M., Schmid-Schonbein H. Tanktread motion of the huamn erythrocyte (RBC) membrane after experimental increase of membrane shear elasticity // Pflugers Arch.-1978.-Vol.373,NSuppl22.-P.R22.
  • Fischer T.M., Stohr M., Schmid-Schonbein H. Red blood cell (RBC) microrheology: comparison of the behavior of single RBC and liquid droplets in shear flow // AIChE Journal.-1978.-Vol.74,N1.-P.38-45.
  • Fisher A.C. A contribution to the kinematics of filtration, when plasma is separated from whole blood // Clin.Hemorheol.-1985.-Vol.5,N1.-P.61-69.
  • Fisher T.C., Van der Waart F.J., Meiselman H.J. The influence of suspending phase viscosity on the passage of red blood cells through capillary-size micropores // Biorheology.-1996.-Vol.33,N2.-P.153-168.
  • Fitch B. Kynch theory and compression zones // AIChE Journal.-1983.-Vol.29,N6.-P.940-947.
  • Fitch B. Sedimentation of flocculent suspensions: state of the art // AIChE Journal.-1979.-Vol.25,N6.-P.913-930.
  • Fogelson A.L. A mathematical model and numerical study of platelet aggregation during blood clotting // Large-Scale Comput.Fluid Mech.Proc.Summer Semin., San Diego,Ca.Pt.1. - Providence,R.I.-1985.-P.129-148.
  • Fogelson A.L. Modeling of platelet aggregation // Ann.Biomed.Eng.-1993.-Vol.21,Nsuppl1.-P.40.
  • Folie B.J., McIntire L.V. Mathematical analysis of mural thrombogenesis. Concentration profiles of platelet-activating agents and effects of viscous shear flow // Biophys J.-1989.-Vol.56,N6.-P.1121-1141.
  • Fondberg L., McQueen D.H. Optothermal measurement of haemoglobin in blood // Clin.Phys.and Physiol.Meas.-1984.-Vol.5,N2.-P.87-91.
  • Font R. Compression zone effect in batch sedimentation // AIChE Journal.-1988.-Vol.34,N2.-P.229-238.
  • Fontaine I., Bertrand M., Cloutier G. A system-based approach to modeling the ultrasound signal backscattered by red blood cells // Biophys J.-1999.-Vol.77,N5.-P.2387-2399.
  • Forconi S. Regional ischemia and hyperviscosity // Clin.Hemorheol.-1988.-Vol.8,N3/4.-P.321-340.
  • Forconi S., Guerrini M., Pieragalli D. Can red cell deformability be measured in clinical medicine? // Clin.Hemorheol.-1989.-Vol.9,N1.-P.27-34.
  • Forlow S.B., McEver R.P., Noller M.U. Leukocyte-leukocyte interactions mediated by platelet micropaticles under flow // Biorheology.-1999.-Vol.36,N1-2.-P.114.
  • Forsdyke D.R., Ford P.M. Rouleaux formation as a measure of the phase separation ability of plasma // J.Theor.Biol.-1983.-Vol.103.-P.467-472.
  • Forsdyke D.R., Ford P.M. Segregation into separation rouleaux of erythrocytes from different species. Evidence against the agglomeron hypothesis of rouleaux formation // Biochem.J.-1983.-Vol.214,N1.-P.257-260.
  • Forstrom R.J., Bartelt K., Blackshear P.L., Wood T. Formed element deposition onto filtering walls // Trans Am Soc Artif Intern Organs.-1975.-Vol.21.-P.602-608.
  • Forstrom R.J., Blackshear P.L. Needles and hemolysis // N Engl J Med.-1970.-Vol.283,N4.-P.208-209.
  • Forstrom R.J., Voss G.O., Blackshear P.L. Fluid dynamics of particle (platelet) deposition for filtering walls: relationship to atherosclerosis // Trans.ASME:J.Biomech.Eng.-1974.-Vol.96,N2.-P.168-172.
  • Fourman J., Moffat D.B. The effect of intra-arterial cushions on plasma skimming in small arteries // J.Physiol.-1961.-Vol.158,N2.-P.374-380.
  • Frank R.S., Hochmuth R.M. The influence of red cell mechanical properties on flow through properties on flow through single capillary-sized pores // Trans.ASME:J.Biomech.Eng.-1988.-Vol.110,N2.-P.155-160.
  • Frankel I., Brenner H. Generalized Taylor dispersion phenomena in unbounded homogeneous shear flows // J.Fluid Mech.-1991.-Vol.230.-P.147-181.
  • Franzini E., Driss F., Darcet Ph., Driss Fr., Daoud F., Thao Chan M. Influence of physico-chemical and pathological factors on the individual red cell transit time // Clin.Hemorheol.-1988.-Vol.8,N3/4.-P.485-492.
  • Franzini E., Driss F., Driss Fr., Daoud F., Darcet Ph., Thao Chan M. The role of red cells subpopulations in the determination of erythrocyte deformability // Clin.Hemorheol.-1988.-Vol.8,N3/4.-P.493-500.
  • Franzini E., Montard M.F., Thao Chan M. Leukocyte filterability: its measurement in the laboratory and effects of pentoxifylline // Clin.Hemorheol.-1988.-Vol.8,N3/4.-P.477-484.
  • Frasher W.C., Meiselman H.J., Wayland H. A variable shear rate capillary viscometer for outflow viscometry in dogs // Biorheology.-1970.-Vol.6,N4.-P.289-290.
  • Frasher W.C., Wayland H., Meiselman H.J. Viscometry of circulating blood in dogs. I: heparin injection; II: platelet removal // J.Appl.Physiol.-1968.-Vol.25,N6.-P.751-760.
  • Fredman M.N., Bargeron C.B., Mark F.F., Duncan D.D. Effects of non-Newtonian rheology on wall shear in compliant cast of human aortic bifurcation // Biorheology.-1989.-Vol.26,N3.-P.602.
  • Fredrickson A.G. A model for the thixotropy of suspensions // AIChE Journal.-1970.-Vol.16,N3.-P.436-441.
  • Freed L.E., Vunjak-Novakovic G.V., Bernstein H., Cooney C.L., Langer R. Kinetics of immobilized heparinase in human blood // Ann.Biomed.Eng.-1993.-Vol.21,N1.-P.67-76.
  • Freed L.E., Vunjak-Novakovic G.V., Drinker P.A., Langer R. Bioreactor based on suspended particles of immobilized enzyme // Ann.Biomed.Eng.-1993.-Vol.21,N1.-P.57-65.
  • Freeman G., Dyer R.L., Juhos L.T., St.John G.A., Anbar M. Identification of nitric oxide (NO) in human blood // Arch. Environ. Health.-1978.-Vol.33.-P.19-23.
  • Freitas J., Braz-Nogueira J., Nogueira da Costa J., Martins e Silva J. Red cell deformability and blood oxygen transport in human hypertension // Clin.Hemorheol.-1983.-Vol.3.-P.443-449.
  • Freitas J., Braz-Nogueira J., Nogueira da Costa J., Martins e Silva J. Whole blood filterability and blood oxygen transport in human hypertension // Clin.Hemorheol.-1983.-Vol.3.-P.367-373.
  • Frewer R.A. The electrical conductivity of flowing blood // Biomed.Eng.-1974,N12.-P.552-555.
  • Freyburger G., Belloc F., Boisseau M.R. Flow cytometry analysis of human neutrophils labeled with rhodamine phalloidin: effect of penoxifylline // Biorheology.-1990.-Vol.27,N3/4.-P.445-448.
  • Freyburger G., Gin H., Dousseau F., Lorient-Roudaut M.F., Boisseau M.R. Erythrocyte membrane fluidity in diabetics: Fluorescence measurement and rheological analysis // Clin.Hemorheol.-1988.-Vol.8,N2.-P.159-164.
  • Fricke H. The electric capacity of suspension of red corpuscules of a dog // Phys.Rev.-1925.-Vol.26,N5.-P.682-687.
  • Fricke H., Morse S. Electric resistance and capacity of blood for frequencies between 800 and 4.5 million cycles // J.Gen.Physiol.-1925.-Vol.9,N2.-P.153-167.
  • Friederichs E., Burow W., Tillmann W. Improved filterability of sickled cells: effects of pentoxifylline in sickle cell anemia // Clin.Hemorheol.-1987.-Vol.7,N6.-P.757-766.
  • Friederichs E., Germs J., Lakomek M., Winkler H., Tillmann W. Increased erythrocyte aggregation in infectious diseases: influence of "acute phase proteins" // Clin.Hemorheol.-1984.-Vol.4,N2/3.-P.237-244.
  • Friederichs E., Lakomek M., Winkler H., Tillmann W. Effects of calcium ions and 2,3-diphosphoglycerate on the solubility of deoxygenated human hemoglobin // Clin.Hemorheol.-1988.-Vol.8,N5.-P.707-714.
  • Friederichs E., Winkler H., Tillmann W. Influence of the red blood cell Ca2+-ion concentration on the erythrocyte aggregation in stasis // Biochem.Med.and Metab.Biol.-1989.-Vol.41,N2.-P.85-92.
  • Friedman L.I., Hardwick R.A., Daniels J.R., Stromberg R.R., Ciarkowski A.A. Evaluation of membranes for plasmapheresis // Artif.Organs.-1983.-Vol.7,N4.-P.435-442.
  • Friedman L.I., Liem H., Grabowski E.F., Leonard E.F., McCord C.W. Inconsequentality of surface properties for initial platalet adhesion // Trans.ASAIO.-1970.-Vol.16.-P.63-76.
  • Friedman L.I., Richardson P.D. Control of flow in the evaluation of blood compatibility of biomaterials // Bull.N.Y.Acad.Sci.-1972.-Vol.48,N2.-P.429-451.
  • Friedman M.H., Ehrlich L.W. Effect of spatial variations in shear on diffusion at the wall of an arterial branch // Circulat.Res.-1975.-Vol.37,N4.-P.446-454.
  • Fritz O.G. Anomalous diffusion of erythrocytes in the presence of polyvinilpyrrolidone // Biophys.J.-1984.-Vol.46,N2.-P.219-228.
  • Frohlich M., Schunkert H., Hense H.-W., Tropitzsch A., Hendricks P., Doring A., Riegger G.A.J., Koenig W. Effects of hormone replacement therapies on fibrinogen andplasma viscosity in postmenopausal women // Brit.J.Haematol.-1998.-Vol.100,N3.-P.577-581.
  • Frojmovic M., Longmire K., van de Ven T.G. Long-range interactionsin mammalian platelet aggregation. 2.The role of platelet pseudopod number and length // Biophys.J.-1990.-Vol.58,N2.-P.309-318.
  • Frojmovic M.M. Rheo-optical studies of blood cells // Biorheology.-1975.-Vol.12,N3-4.-P.193-202.
  • Frojmovic M.M., Kasirer-Friede A., Goldsmith H.L., Brown E.A. Surface-secreted von Willebrand factor mediates aggregation of ADP-activated platelets at moderate shear stress: facilitated by GPIb but controlled by GPIIb-IIIa // Thromb Haemost.-1997.-Vol.77,N3.-P.568-576.
  • Frojmovic M.M., Kasirer-Friede A., Liu Q., Legrand C. Platelet aggregation in flow. Differential roles for adhesive receptors and ligands // Biorheology.-1999.-Vol.36,N1-2.-P.39.
  • Frojmovic M.M., Newton M., Goldsmith H.L. The microrheology of mammalian platelets: studies of rheo-optical transients and flow in tubes // Microvasc Res.-1976.-Vol.11,N2.-P.203-215.
  • Frojmovic M.M., Okagawa A., Mason S.G. Rheo-optical transients in erythrocyte suspensions // Biochem. and Biophys. Res. Communs.-1975.-Vol.62,N1.-P.17-24.
  • Frojmovic M.M., Panjawani R. Erythrocyte and platelet geometry: comparative quantitative estimates by static microscopic and rheo-optical determination // Microcirculation.-1976.-Vol.1.-P.130-132.
  • Fu-lung L., Dintenfass L. Effect of microrheology of blood on the apparent flow instability in a rotational viscometer // Biorheology.-1983.-Vol.20.-P.327-342.
  • Fuchs J., Pinhas A., Davidson E., Rotenberg Z., Agmon J., Weinberger I. Plasma viscosity, fibrinogen and haematocrit in the course of unstable angins // Europ.Heart J.-1990.-Vol.11,N11.-P.1029-1032.
  • Fuchs J., Weinberger I., Rotenberg Z., Joshua H., Almozlino A., Agmon J. Circulating aggregated platelets in coronary artery disease // Am J Cardiol.-1987.-Vol.60,N7.-P.534-537.
  • Fujii M., Ohta A., Masujima F., Niwa M., Sakamoto K., Kanai H. Measurement of electrical resistance in the three directions and the viscoelasticity of blood // Biorheology.-1995.-Vol.32,N2-3.-P.259.
  • Fujimaki M. [Blood platelet aggregation] // Rinsho Byori.-1980.-Vol.28,NSpec No.-P.43-51.
  • Fujisato Toshia, Kanbayashi Keiko, Kokubo Ken'ichi, Hagihara Kazuhito, Tsuji Takayuki Microporous glass (MPG) tube viscometry // Biorheology.-1996.-Vol.33,N4-5.-P.410.
  • Fujita H. Mathematical theory of sedimentation analysis.- New York: Academic Press-1962, 280 p.
  • Fukada E., Kaibara M. Non-newtonian viscosity and dynamic viscoelasticity of blood during coagulation // J.Soc.Mater.Sci.Japan.-1968.-Vol.17,N175.-P.304-306.
  • Fukada E., Kaibara M. the dynamic rigidity of fibrin gels // Biorheology.-1973.-Vol.10,N2.-P.129-138.
  • Fukada E., Seaman G.V.F., Liepsch D., Lee M., Friis-Baastad L. Blood modeling using polystyrene microspheres // Biorheology.-1989.-Vol.26,N2.-P.401-413.
  • Fukada E., Sugiura Y., Date M., Kaibara M. Methods to study rheological properties of blood during clotting // Biorheology.-1984.-Vol.21,NSuppl.1.-P.9-14.
  • Fukada E., Sugiura Y., Date M., Kaibara M. Methods to study rheological properties of blood during clotting // Biorheology.-1983.-Vol.20,N6.-P.816.
  • Fukata Tsuneo, Ohnishi Takafumi, Okuda Sinnya, Sasal Kazurni, Baba Eiichlroh, Arakawa Akira Detection of canine erythrocytes infected with Babesia gibsoni by flow cytometry // J.Parasitol.-1996.-Vol.82,N4.-P.641-642.
  • Fukushima T., Karino T., Goldsmith H.L. Disturbances of flow through transparent dog aortic arch // Heart Vessels.-1985.-Vol.1,N1.-P.24-28.
  • Fukuyama M., Sakai K., Itagaki I., Kawano K., Murata M., Kawai Y., Watanabe K., Hanada M., Ikeda Y. Continuous measurement of shear-induced platelet aggregation // Thromb.Res.-1989.-Vol.54,N3.-P.253.
  • Fuller G.G., Prattini P.L. The response of red blood cells to transient shear flows by phase modulated dichroism // Biorheology.-1983.-Vol.20,N4.-P.426.
  • Fulton G.P., Berman H.J., Slechta R.F., Brooks A.M. Rheological patterns in the microcirculation // Biorheology.-1967.-Vol.4,N1.-P.97-98.
  • Fung J.S.K., Canham P.B. The mode and kinetics of the human red cell doublet formation // Biorheology.-1974.-Vol.11,N4.-P.241-251.
  • Fung Y.C., Tsang C.O., Patitucci P. High-resolution data on the geometry of red blood cells // Biorheology.-1981.-Vol.18.-P.369-385.
  • Furrechi A., Ohad I. Effects of high frequensy electric field on the living cell // Biochim.et biophys.acta.-1964.-Vol.79.-P.1-8.
  • Furukawa K., Ookawa K., Yanagi K., Ushida T., Tateishi T., Ohshima N. Cone-plate viscometer-based apparatus for quantitative measurement of platalet adhesion onto biomaterial surfaces // Biorheology.-1996.-Vol.33,N1.-P.94.
  • Gabbasov Z.A., Popov E.G., Gavrilov I.Yu., Pozin E.Ya. Platelet aggregation: The use of optical density fluctuations to study microaagregate formation in platelet suspension // Thromb.Res.-1989.-Vol.54,N3.-P.215-224.
  • Gabbasov Z.A., Popov E.G., Gavrilov J.Yu., Pozin E.Ya. A new method for analysis of spontaneous aggregation and aggregation caused by very low doses of the inducer in platelet suspension // 3rd Erfurt Workshop Platelets. - Erfurt.-1989.-P.9-10.
  • Gabbazov Z.A., Gavrilov I.Yu., Popov E.G. Optical density fluctuations for determination of platelet concentration in stirres suspension // Platelets.-1992.-Vol.3,N5.-P.281-282.
  • Gaboury J.P., Kubes P. Reductions of physiologic shear rates lead to CD11/CD18-dependent, selectin-independent leukocyte rolling in vivo // Blood.-1994.-Vol.83,N2.-P.345-350.
  • Gad-el-Hak M., Morton J.B., Kutchal H. Turbulent flow of red cells in dilute suspensions. Effect on kinetics of O2 uptake // Biophys J.-1977.-Vol.18,N3.-P.289-300.
  • Gadala-Maria F., Acrivos A. Shear-induced structure in a concentrated suspension of solid spheres // J.Rheol.-1980.-Vol.24,N6.-P.799-814.
  • Gaehtgens P. Flow of blood through narrow capillaries: rheological mechanisms determining capillary hematocrit and apprent viscosity // Biorheology.-1980.-Vol.17.-P.183-189.
  • Gaehtgens P. Physiological relevance of RBC aggregation - the "con" view // Biorheology.-1995.-Vol.32,N2-3.-P.105-106.
  • Gaehtgens P. Tube flow of human blood at near zero shear // Biorheology.-1987.-Vol.24,N4.-P.367-376.
  • Gaehtgens P., Albrecht K.H., Kreutz F. Fahraeus effect and cell screening during tube flow of human blood. 1.Effect of variation of flow rate // Biorheology.-1978.-Vol.15,N3/4.-P.147-154.
  • Gaehtgens P., Alonso C. Aggregation and sedimentation: two components of "sludged blood" during small tube flow // Biorheology.-1995.-Vol.32,N2-3.-P.168.
  • Gaehtgens P., Benner K.U. desaggregation of human red blood cells by various surface active agents as related to change by cell shape and hemolysis // Acta Haematol.-1975.-Vol.53,N2.-P.82-99.
  • Gaehtgens P., Benner K.U., Schickendantz S., Albrecht K.H. Method for simultaneous determination of red cell and plasma flow velocity in vitro and in vivo // Pflugers Arch.-1976.-Vol.376,N2.-P.191-195.
  • Gaehtgens P., Duhrssen C., Albrecht K.H. Motion, deformation, and interaction of blood cells and plasma during flow through narrow capillary tubes // Blood Cells.-1980.-Vol.6,N4.-P.799-817.
  • Gaehtgens P., Kreutz F., Albrecht K.H. Fahraeus effect and cell screening during tube flow of human blood. 2.Effect of dextran-induced cell aggregation.
  • Gaehtgens P., Meiselman H.J., Wayland H. Velocity profiles of human blood at normal and reduced hematocrit in glass tubes up to 130 mm diameter // Microvasc.Res.-1970.-Vol.2,N1.-P.13-23.
  • Gaehtgens P., Pries A., Albrecht K.H. Physiological significance of meechanisms determining the dynamic hematocrit in capillary blood flow // Pflugers Arch.-1978.-Vol.373,NSuppl22.-P.R22.
  • Gaehtgens P., Pries A.R. Role of geometric constraint by vascular walls for the mechanics of blood flow in the microcirculation // 2nd World Congr.Biomech. Vol.2.- Amsterdam.-1994.-P.171.
  • Gaehtgens P., Pries A.R., Nobis U. Flow behaviour of wnite blood cells (WBC) in capillaries // White Blood Cell Mech.-New York.-1984.
  • Gaehtgens P., Schickendantz S. Rheological properties of maternal and neonatal blood // Bibl.Anat.-1975.-Vol.13.-P.107-108.
  • Gainer J.L. The effects of plasma constituents on diffusivity of oxygen // AIChE Journal.-1979.-Vol.25,N1.-P.188-190.
  • Galaris D., Yova D., Korantzopoulos P., Barbounaki S., Koutsouris D. Effects of ascorbic acid on tert-butyl hydroperoxide-induced deformability decrease in human erythrocytes // Clin. Hemorheology.-1995.-Vol.15,N1.-P.107-120.
  • Galeczki G., Galeczki G. Utilization of random porous media (RPM) for studying the flow behavior of packed red blood cells // Biorheology.-1995.-Vol.32,N2-3.-P.310-311.
  • Galetti P.M., Richardson P.D., Trudell L.A. Oscillating blood flow enhances membrane plasmapheresis // ASAIO Trans.-1983.-Vol.29.-P.279.
  • Gallagher E.J., Gennis P., Brooks F. Clinical use of the erythrocyte sedimentation rate in the evaluation of febrile intrvenous drug users // Ann. Emergency Med.-1993.-Vol.22,N5.-P.776-780.
  • Gallik S., Usami S., Jan K.-M., Chien S. Shear stress-induced detachment of human polymorphonuclear leukocytes from endothelial cell monolayers // Biorheology.-1989.-Vol.26,N4.-P.823-834.
  • Galvez A., Badimon L., Badimon J.-J., Fuster V. Elecrical aggregometry in whole blood from human, pig and rabbit // Thromb.and Haemost.-1986.-Vol.56,N2.-P.128-132.
  • Game L., Voegel J.C., Schaaf P., Stoltz J.F. Do physiological concentrations of IgG induce a direct aggregation of red blood cells: comparison with fibrinogen // Biochim Biophys Acta.-1996.-Vol.1291,N2.-P.138-142.
  • Gandjbakhche A.H., Mills P., Guiffant G. An optical method to determine the collective orientation-deformation of RBC in a simple shear flow // Biorheology.-1989.-Vol.26,N3.-P.592.
  • Gandjbakhche A.H., Mills P., Snabre P. Light-scattering technique for the study of orientation and deformation of red blood cells in a concentrated suspensions // Appl.Optics.-1994.-Vol.33,N6.-P.1070-1078.
  • Gannushkina I.V. Hydrodynamic blood flow resistance -News in rheology // Bio.-Mol.Med.'2000 in Search of Approaches': 1 int.Workshop Proc., Moscow-Riga.-1993.-P.60.
  • Gannushkina I.V., Antelava A.L., Gabrielian E.S., Akopov S.E., Konorova I.L. Biomechanical blood flow properties in regulation of CBF and nontraditional correction of brain ischemia by drag-reducing polymers // Pan Eur.Soc.Neurol. 2nd Congr. Abstrs.- Vienna.-1991.-P.30.
  • Gannushkina I.V., Antelava A.L., Gabrielian E.S., Akopov S.E., Konorova I.L. Significance of biomechanic blood flow properties in regulation of systemic and cerebral hemodynamics and blood-vessel interactions: a nontraditional method of correction of their disturbances by high molecular polymers // Constituent Congr.Int.Soc.fror Pathophysiol.-Moscow.-1991.-P.104.
  • Gannushkina I.V., Antelava A.L., Konorova I.L., Suslina Z.A., Lebedeva N.V. Blood flow hydrodynamic resistance in patients with ischaemic stroke or vascular encephalopathy and possibilities of its correction in vitro // Neurol.Res.-1992.-Vol.14,N2, suppl..-P.146-148.
  • Gannushkina I.V., Gabrielian E.S., Akopov S.E., Konorova I.L. Decrease of blood cells interactions and aggregation using drag-reducing polymers in blood flow model // Microcirculatory Stasis in the Brain.- Tokyo.-1993.-P.114.
  • Gannushkina I.V., Johansson B.B., Olsson A.-L. Decrease of brain edema after middle cerebral artery occlusion in spontaneously hypertensive rats pretreated witn a drag-reducing polymer // Microcirculatory Studies: Clin.and Exp. 3rd Swedish-Soviet Microcirculation Sympos.- LInkoping.-1991.-P.15-22.
  • Gannushkina I.V., Johansson B.B., Olsson A.-L. Decrease of brain edema after middle cerebral artery occlusion in spontaneously hypertensive rats pretreated with a drag- reducing polymer // Microcirculatory Studies: Clinical and Experimental. 3d Swedish-Soviet Microcirculation Symposium. Linkoping.-1991.-P.15-22.
  • Ganssen A., Schmid-Schonbein H., Malotta H., Schneider R. Fast determination of water mobility in blood plasma - investigation of clinical significance // Biorheology.-1979.-Vol.16,N6.-P.397-402.
  • Gao S.-J., Niimi H., Yamaguchi S., Shimizu T., Kuriyama Y., Sawada T. Blood cell filtration test at low flow rates for clinical applications // Clin.Hemorheol.-1989.-Vol.9,N2.-P.297-306.
  • Gardner R.A. An examination of the mechanics and thrombus formation time parameters in a Chandler rotating loop system // J.lab.Clin.Med.-1974.-Vol.84,N4.-P.494-508.
  • Gareth J.J., Adams R.A., Cook A.M., Evans S.-A. Examination of a rheological profile for blood using micropore filters // Brit.J.Haematol.-1999.-Vol.104,N1.-P.100-107.
  • Garrison L.A., Frangos J.A., Geselowitz D.B., Lamson T.C., Tarbell J.M. A new mock circulatory loop and its application to the study of chemical additive and aortic pressure effects on hemolysis in the Penn State electric ventricular assist device // Artif Organs.-1994.-Vol.18,N5.-P.397-407.
  • Gaspar-Rosas A., Thurston G.B. Analysis of erythrocyte sedimentation-characteristic values // Proc.34th ACEMB.- Bethesda, Md.-1981.-P.109.
  • Gaspar-Rosas A., Thurston G.B. Erythrocyte aggregate rheology by transmitted and reflected light // Biorheology.-1988.-Vol.25,N3.-P.471-488.
  • Gatignol R. The Faxen formulae for a rigid particle in an unsteady non-uniform Stokes flow // J.Mec.theor.et appl.-1983.-Vol.1,N2.-P.143-160.
  • Gattegno L., Perret G., Fabia F., Cornillot P. Decrease of carbohydrate in membrane glycoproteins during human erythrocyte ageing in vivo // Mech Ageing Dev.-1981.-Vol.16,N3.-P.205-219.
  • Gauthier F.J., Goldsmith H.L., Mason S.G. Flow of suspensions through tubes-X. Liquid drops as models of erythrocytes // Biorheology.-1972.-Vol.9,N4.-P.205-224.
  • Ge Z.Y., Lin C.R., Zhou Y.W. [Study of platelet aggregation affected by 8 classical recipes in rabbit] // Chung Kuo Chung Hsi I Chieh Ho Tsa Chih.-1994.-Vol.14,N8.-P.489-490.
  • Gear A.R. Rapid reactions of platelets studied by a quenched-flow approach: aggregation kinetics // J Lab Clin Med.-1982.-Vol.100,N6.-P.866-886.
  • Geddes L.A., daCosta C.P. The specific resistance of canine blood at body temperature // IEEE Trans.Biomed.Eng.-1973.-Vol.BME 20,N1.-P.51-53.
  • Geddes l.A., Sadler C. The specific resistance of blood at body temperature // Med.Biol.Eng.-1973.-Vol.11.-P.336-339.
  • Gelin L.-E. Rheology of blood and its significance in flow distribution following shock and trauma // Proc.7th Int.Congr.Rheol.- Gothenburg.-1976.-P.58-60.
  • Gelin L.-E. Rheological disturbances following tissue injury // Proc.4th Int.Congr.Rheol. Pt.4. Symp.on Biorheol.- New York etc.-1965.-P.299-315.
  • Geller A.S., Schowalter W.R. An experimental study of stress-induced diffusion // J.Rheol.-1980.-Vol.24,N6.-P.883.
  • Gerrard J.H., Hughes M.D. The flow due to an oscillating piston in a cylindrical tube: a comparison between experiment and a simple entrance flow theory // J. Fluid Mech.-1971.-Vol.50.-P.97-?.
  • Ghigliotti G., Brunelli C., Iannone A., Corsiglia L., Spallarossa P., Demartino L., Caponnetto S. Blood viscosity, lipid levels and inflammatory state in patients with unstable angina: relation with the clinical presentation // Brit. J. Haematol.-1994.-Vol.87,Nsuppl.1.-P.79.
  • Giasanti R., Boemi M., Rabini R.A., Amodio L., Fioravanti P., Romagnoli F., Fumelli P. Haemorheological profile and retinopathy in patients with diabetic foot ulcer // Clin. Hemorheology.-1995.-Vol.15,N1.-P.73-80.
  • Giberman E. Determination of the trapped volume in a pellet of red blood cell // Experientia.-1973.-Vol.29,N9.-P.1083-1085.
  • Gijsen F.J.H., Allanic E., van de Vosse F.N., Janssen J.D. Influence of the non-Newtonian properties of blood on the flow in large arteries: Unsteady flow in a 90ш curved tube // J Biomech.-1999.-Vol.32,N7.-P.705-713.
  • Gijsen F.J.H., van de Vosse F.N., Janssen J.D. Influence of the non-Newtonian properties of blood on the flow in large arteries: Steady flow in a carotid bifurcation model // J Biomech.-1999.-Vol.32,N6.-P.601-608.
  • Gijsen F.J.H., van de Vosse F.N., Janssen J.D. Wall shear stress In backward- facing step flow of a red blood cell suspension // Biorheol.-1998.-Vol.35,N4-5.-P.263-279.
  • Gill W.N., Wiley D.E., Fell C.J.D., Fane A.G. Effect of viscosity on concentration polarization in ultrafiltration // AIChE Journal.-1988.-Vol.34,N9.-P.1563-1567.
  • Gillard B. Etude des effets d'entree en ecoulement pulses non newtoniens. Application a l'hemodynamique: Thes.Inst.nat.polytechn.Toulouse-1978.
  • Ginsberg M.H., Loftus J.C., Plow E.F. Cytoadhesins, integrins, and platelets // Thromb.and Haemostasis.-1988.-Vol.59,N1.-P.1-6.
  • Giorgio T.D., Hellums J.D. A cone and plate viscometer for the continuous measurement of blood platelet activation // Biorheology.-1988.-Vol.25,N4.-P.605-624.
  • Giorgio T.D., Hellums J.D. A note on the use of Quin 2 in studying shear-induced platelet aggregation // Thromb.Res.-1986.-Vol.41,N3.-P.353-360.
  • Gir S., Reavis R., Turitto V.T., Gollamudi R. Antiplatelet agents affecting the interaction of Tissue Factor-Factor VIIa complex with Factor X in a continuous-flow reactor // Biotechnol Appl Biochem.-1996.-Vol.23,N1.-P.63-66.
  • Gir S., Slack S.M., Turitto V.T. A numerical analysis of factor X activation in the presence of tissue factor--factor VIIa complex in a flow reactor // Ann Biomed Eng.-1996.-Vol.24,N3.-P.394-399.
  • Girolami A., Cella G., Patrassi G. Increased whole blood viscosity on cooling patient with cold hemoagglutinin disease // Vox Sang.-1967.-Vol.31,NSuppl.1.-P.1-8.
  • Glacet-Bernard A., Chabanel A., Coscas G., Lelong F., Samama M. El\'evation de l'agr\'egation \'erythocytaire au cours des occlusions v\'eneuses r\'etiniennes // J.Fr.D'Opthalmol.-1990.-Vol.13.-P.500-505.
  • Glaser R., Herrmann A. The sedimentation velocity of individual human erythrocytes as a function of temperature // Biorheology.-1980.-Vol.17,N3.-P.289-291.
  • Glaser R., Svetina S., Brumen M., Lerche D., Quemada D., Mills P., Dufaux J. Stationary ionic states of human red blood cells - consequences for planning and evaluation of experiments // Stud. Biophys.-1980.-Vol.81,N1.-P.43-47.
  • Glockner W.M., Sieberth H.G., Schmid-Schonbein H. Cascade filtration for the control of hyperviscosity by the removal of IgM-paraprotein in Waldenstrom's macroglobulinaemia // Clin.Hemorheol.-1985.-Vol.5,N1.-P.71-78.
  • Glockner W.M., Sieberth H.G., Schmid-Schonbein H. Cascade filtration for the control of hyperviscosity by the removal of IgM-paraprotein in Waldenstrom's macroglobulinaemia // Clin.Hemorheol.-1985.-Vol.5.-P.71-76.
  • Gobel W., Perkkio J., Schmid-Schonbein H. Compacting stasis due to gravitational red cell migration and floatational plasma skimming. Reversal of the Fahraeus effect due to pathological RCA-formation in plastic tubes and mesenteric venules // Virchows Arch. A. Pathol. Anat. Histopathol.-1989.-Vol.415,N3.-P.243-251.
  • Godin C., Caprani A. Effect of blood storage on erythrocyte/wall interactions: implications for surface charge and rigidity // Eur Biophys J.-1997.-Vol.26,N2.-P.175-182.
  • Godin C., Caprani A. Interactions of erythrocytes with an artificial wall: influence of the electrical surface charge // Eur Biophys J.-1996.-Vol.25,N1.-P.25-30.
  • Godin C., Caprani A., Dufaux J., Flaud P. Interactions between neutrophils and endothelial cells // J.Cell Sci.-1993.-Vol.106.-P.441-452.
  • Godin C., Violleau M., Caprani A. Electrochemical analysis of blood cell/substrate interactions under flow conditions // Biorheology.-1995.-Vol.32,N5.-P.571-587.
  • Goldman A.J., Cox R.G., Brenner H. Slow viscous motion of a sphere parallel to a plane wall. 1. Motion through a quescent fluid // Chem.Eng.Sci.-1967.-Vol.22,N4.-P.637-651.
  • Goldsmith H.L. Blood flow and thrombosis // Thromb Diath Haemorrh.-1974.-Vol.32,N1.-P.35-48.
  • Goldsmith H.L. Collisions of circulating cells with the vascular endothelium // Fundamental aspects of metastasis.-1976.-P.99-120.
  • Goldsmith H.L. Deformation of human red cells in tube flow // Biorheology.-1971.-Vol.7,N4.-P.235-242.
  • Goldsmith H.L. From papermaking fibers to human blood cells // Biorheology.-1993.-Vol.30,N3/4.-P.165-190.
  • Goldsmith H.L. Human blood cells in flow through model vessels // 1979 Biomech.Symp. - New York.-1979.-P.1-16.
  • Goldsmith H.L. Microscopic flow properties of red cells // Fed Proc.-1967.-Vol.26,N6.-P.1813-1820.
  • Goldsmith H.L. Poiseuille Medial Award lecture: from papermaking fibers to human blood cells // Biorheology.-1993.-Vol.30,N3-4.-P.165-190.
  • Goldsmith H.L. Red cell motions and wall interactions in tube flow // Fed Proc.-1971.-Vol.30,N5.-P.1578-1590.
  • Goldsmith H.L. Red cells and rouleaux in shear flow // Science.-1966.-Vol.153,N742.-P.1406-1407.
  • Goldsmith H.L. Some aspects of platelet microrheology // J.Rheol.-1980.-Vol.24,N6.-P.960-961.
  • Goldsmith H.L. Some flow properties of erythrocytes and rouleaux // Bibl Anat.-1967.-Vol.9.-P.259-265.
  • Goldsmith H.L. Stanley Mason: his contribution to the science of biorheology // Biorheology.-1989.-Vol.26,N2.-P.99-107.
  • Goldsmith H.L. The Microcirculatory Society Eugene M. Landis Award lecture. The microrheology of human blood // Microvasc Res.-1986.-Vol.31,N2.-P.121-142.
  • Goldsmith H.L. The effects of flow and fluid mechanical stress on red cells and platelets // Trans Am Soc Artif Intern Organs.-1974.-Vol.20A.-P.21-26.
  • Goldsmith H.L. The flow of model particles and blood cells and its relation to thrombogenesis // Prog Hemost Thromb.-1972.-Vol.1.-P.97-127.
  • Goldsmith H.L. The microrheology of dispersions: application to blood cells // Biorheology.-1996.-Vol.33,N4-5.-P.115.
  • Goldsmith H.L. The microrheology of human erythrocyte suspensions // Theor.and Appl.Mech. - Berlin.-1973.-P.85-103.
  • Goldsmith H.L. The microrheology of red blood cell suspensions // J Gen Physiol.-1968.-Vol.52,N1.-P.5S-28S.
  • Goldsmith H.L. Visual and photographic methods in the study of red cell flow // Biorheology.-1970.-Vol.6,N4.-P.279.
  • Goldsmith H.L., Bell D.N., Braovac S., Steinberg A., McIntosh F. Physical and chemical effects of red cells in the shear-induced aggregation of human platelets // Biophys J.-1995.-Vol.69,N4.-P.1584-1595.
  • Goldsmith H.L., Bell D.N., Spain S., McIntosh F.A. Effect of red blood cells and their aggregates on platelets and white cells in flowing blood flow // Biorheology.-1999.-Vol.36,N5-6.-P.461-468.
  • Goldsmith H.L., Cokelet G.R. Effects of red cell aggregation in tube flow // 1st World Congr. Biomech. Vol.2. -La Jolla, Ca.-1990.-P.334.
  • Goldsmith H.L., Frojmovic M.M., Braovac S., McIntosh F., Wong T. Adenosine diphosphate-induced aggregation of human platelets in flow through tubes: III. Shear and extrinsic fibrinogen-dependent effects // Thromb Haemost.-1994.-Vol.71,N1.-P.78-90.
  • Goldsmith H.L., Gold P., Shuster J., Takamura K. Interactions between sphered human red cells in tube flow: technique for measuring the strength of antigen--antibody bonds // Microvasc Res.-1982.-Vol.23,N2.-P.231-238.
  • Goldsmith H.L., Karino T. Interactions of human blood cells with the vascular endothelium // Ann N Y Acad Sci.-1987.-Vol.516.-P.468-483.
  • Goldsmith H.L., Karino T. Mechanically induced thromboemboli // Quant.Cardiovasc.Stud.-Baltimore.-1979.-P.289-351.
  • Goldsmith H.L., Karino T. Microrheology and clinical medicine: unravelling some problems related to thrombosis // Clin.Hemorheol.-1982.-Vol.2,N1-2.-P.143-155.
  • Goldsmith H.L., Karino T. Microscopic considerations: The motions of individual particles // Ann.New York Acad.Sci.-1977.-Vol.283.-P.241-255.
  • Goldsmith H.L., Karino T. Platelets in a region of disturbed flow // Trans Am Soc Artif Intern Organs.-1977.-Vol.23.-P.632-638.
  • Goldsmith H.L., Karino T. [Role of fluid dynamic factors in the development and progression of atherosclerosis, thrombosis and aneurysms] // Vasa Suppl.-1991.-Vol.32.-P.14-17.
  • Goldsmith H.L., Kaufer E.S., McIntosh F.A. Effect of hematocrit on adenosine diphosphate-induced aggregation of human platelets in tube flow // Biorheology.-1995.-Vol.32,N5.-P.537-552.
  • Goldsmith H.L., Lichtarge O., Tessier-Lavigne M. Two-body interactions between human blood cells // Microvasc.Res.-1981.-Vol.21,N2.-P.242-243.
  • Goldsmith H.L., Lichtarge O., Tessier-Lavigne M., Spain S. Some model experiments in hemodynamics: VI. Two-body collisions between blood cells // Biorheology.-1981.-Vol.18,N3-6.-P.531-555.
  • Goldsmith H.L., Marlow J.C. Flow behavior of erythrocytes. 1 // Proc.Poy.Soc.B.-1972.-Vol.181.-P.351.
  • Goldsmith H.L., Marlow J.C. Flow behavior of erythrocytes. 2.Particle motions in concentrated suspensions of ghost cells // Int.J.Coll.Interface.Sci.-1979.-Vol.71,N2.-P.383-407.
  • Goldsmith H.L., Marlow J.C., Yu S.K. The effect of oscillatory flow on the release reaction and aggregation of human platelets // Microvasc.Res.-1976.-Vol.11.-P.335-359.
  • Goldsmith H.L., Mason S.G. Axial migration of particles in Poiseuille flow // Nature.-1961.-Vol.190,N4781.-P.1095-1096.
  • Goldsmith H.L., Mason S.G. Further comments on the radial migration of spheres in Poiseuille flow // Biorheology.-1965.-Vol.3,N1.-P.33-36.
  • Goldsmith H.L., Mason S.G. Model particles and red cells in flowing concentrated suspensions // Bibl Anat.-1969.-Vol.10.-P.1-8.
  • Goldsmith H.L., Mason S.G. Physical aspects of the flow of biological suspensions through tubes // Proc.4th Intern. Congr. Rheol. Pt 4. Sympos. on Biorheol. - New York; London; Sydney,.-1965.-P.85-88.
  • Goldsmith H.L., Mason S.G. Some model experiments in haemodynamics. II // Bibl Anat.-1965.-Vol.7.-P.353-362.
  • Goldsmith H.L., Mason S.G. Some model experiments in hemodynamics. IV // Biorheology.-1970.-Vol.67,N4.-P.284.
  • Goldsmith H.L., Mason S.G. Some model experiments in hemodynamics.V. Microrheological techniques // Biorheology.-1975.-Vol.12,N3/4.-P.181-192.
  • Goldsmith H.L., Mason S.G. The flow of suspensions through tubes. 1. Single spheres rods and discs // J.Colloid Sci.-1962.-Vol.17,N5.-P.448-476.
  • Goldsmith H.L., Mason S.G. The microrheology of dispersions // Rheology. Vol.4.-New York.-1967.-P.86-250.
  • Goldsmith H.L., McIntosh F.A., Frojmovic M.M. Kinetics of thrombin-and SFLLRN-induced aggregation of human platelets in flow through tubes // Biorheology.-1998.-Vol.35,N1.-P.53-68.
  • Goldsmith H.L., McIntosh F.A., Frojmovic M.M. The kinetics of thrombin- and SFLLRN-induced aggregation of human platelets in flow through tubes // Biorheology.-1998.-Vol.35,N1.-P.53-68.
  • Goldsmith H.L., Rifkin P.L., Zucker M.B. Platelet retention test: accumulation of corpuscles at the advancing blood--air interface // Microvasc Res.-1975.-Vol.9,N3.-P.304-309.
  • Goldsmith H.L., Skalak R. Hemodynamics // Annu.Rev.Fluid Mech.Vol.7. - Palo Alto, Ca.-1975.-P.213-247.
  • Goldsmith H.L., Spain S. Distribution of human leucocytes in blood flowing through tubes.-P.254-255.
  • Goldsmith H.L., Spain S. Flow-dependent margination of white cells in blood // Biorheology.-1983.-Vol.20,N4.-P.413.
  • Goldsmith H.L., Spain S. Margination of leukocytes in blood flow through small tubes // Microvasc Res.-1984.-Vol.27,N2.-P.204-222.
  • Goldsmith H.L., Spain S. Radial distribution of white cells in tube flow // Kroc Found Ser.-1984.-Vol.16.-P.131-146.
  • Goldsmith H.L., Takamura K., Bell D. Shear-induced collisions between human blood cells // Ann N Y Acad Sci.-1983.-Vol.416.-P.299-318.
  • Goldsmith H.L., Turitto V.T. Rheological aspects of thrombosis and haemostasis: basic principles and applications. ICTH-Report--Subcommittee on Rheology of the International Committee on Thrombosis and Haemostasis // Thromb Haemost.-1986.-Vol.55,N3.-P.415-435.
  • Goldsmith H.L., Yu S.S., Marlow J. Fluid mechanical stress and the platelet // Thromb Diath Haemorrh.-1975.-Vol.34,N1.-P.32-41.
  • Goldstick T.K., Ciurila V.T., Duckerman L. Diffusion of oxygen in plasma and blood // Oxygen Transp.Tissue II.- New York etc.-1976.-P.183-190.
  • Goldstone J., Hutchins P.M., Schmid-Schonbein H., Wells R. Rheologic properties of banked bloodThe roles of convection and diffusion in platelet aggregation // Microvasc.Res.-1973.-Vol.6,N1.-P.122.
  • Goldstone J., Schmid-Schonbein H., Wells R. The rheology of red blood cell aggregates // Microvasc.Res.-1970.-Vol.2.-P.273-286.
  • Gollan F., Namon R. Electrical impedance of pulsatile blood flow in rigid tubes and in isolated organs // Ann.N.Y.Acad.of Sci.,N2.-P.568-576.
  • Gomi T., Ikeda T., Ikegami F. Beneficial effect of \alpha-blocker on hemorheology in patients with essential hypertension // Biorheology.-1996.-Vol.33,N4-5.-P.435.
  • Goode A. Microgravity research: a new dimension in medical science // Lancet.-1981.-Vol.1.-P.767-769.
  • Gopala Krishna G., Anwar Ali A.K., Mohan D.R., Ahmad A. Dielectrophoretic study of human erythrocytes // J Biomed Eng.-1989.-Vol.11,N5.-P.375-380.
  • Gopala Krishna G., Anwar Ali A.K.W., Ram Mohan D., Ahmad A. Dielectrophoretic study of human erythrocytes // J.Biomed.Eng.-1989.-Vol.11,N5.-P.375-380.
  • Gordon R.J., Snyder G.K., et al. Potential significance of plasma viscosity and hematocrit variations in myocardial ischemia // Amer.Heart J.-1974.-Vol.87,N2.-P.175-182.
  • Gorog P., Ridler C.D., Pasi J.K., Kovacs I.B. Optimal shear forces for assessing risks of thrombosis or bleeding: Abstr. 6th Erfurt Conf. Platelets "platelets Activ. Vasc.Disease: Detect., Clin.Significance and Treat.",Erfurt, 12-15 May,1996 // Platelets.-1996.-Vol.7,N1-2.-P.83.
  • Goss D.J., Parkhurst L.J., Gorisch H. Kinetic light scattering studies on the dissociation of hemoglobin from Lumricus terrestris // Biochemistry.-1975.-Vol.14,N25.-P.5461-5464.
  • Goto H., Dobashi T., Ohsawa N., Akio S., Oka S. Erythrocyte sedimentation rate. III. Dependence on tube diameter in saline soultion // Biorheology.-1986.-Vol.23,N5.-P.518.
  • Gottstein U. Evaluation of isovolemic hemodilution // Clin.Hemorheol.-1984.-Vol.4,N2/3.-P.133-150.
  • Grabowski E.F. Effects of contrast media on erythrocyte and platelet interactions with endothelial cell monolayers exposed to flowing blood // Invest Radiol.-1988.-Vol.23,NSuppl 2.-P.S351-S358.
  • Grabowski E.F. Platelet aggregation in flowing blood at a site of injury to an endothelial cell monolayer: quantitation and real-time imaging with the TAB monoclonal antibody // Blood.-1990.-Vol.75,N2.-P.390-398.
  • Grabowski E.F. Platelet aggregation in flowing blood in vitro. 1.Production by controlled ADP convective diffusion and quantification by videodensitometry // Microvasc.Res.-1978.-Vol.16,N2.-P.159-182.
  • Grabowski E.F. Roles of blood flow in platelet adhesion and aggregation // Adv Exp Med Biol.-1978.-Vol.102.-P.73-100.
  • Grabowski E.F., Franta J.T., Didisheim P. Platelet aggregation in flowing blood in vitro. 2.Dependence of aggregate grpwth rate on ADP concentration and shear rate // Microvasc.Res.-1978.-Vol.16,N2.-P.183-195.
  • Grabowski E.F., Friedman L.I., Leonard E.F. Effects of shear rate on the diffusion and adhesion of blood platelet to a foreign surface // Ind.and Eng.Chem.Fundam.-1972.-Vol.11,N2.-P.224-232.
  • Grabowski E.F., Leonard E.F. The roles of convection and diffusion in platelet aggregation // Microvasc.Res.-1973.-Vol.6,N1.-P.122.
  • Graham A.L., Altobelli S.A., Fukushima E., Mondy L.A., Stephens T.S. NMR imaging of shear-induced diffusion and structure in concentrated suspensions undergoing Couette flow // J.Rheol.-1991.-Vol.35.-P.191-201.
  • Graham M.D. Blood cell separation by high gradient magnetic fields // Bibl.Anat.-1977.-Vol.16.-P.345-347.
  • Graham M.D. Efficiency comparison of two preparative mechanisms for magnetic separation of erythrocytes from whole blood // J.Appl.Physiol.-1981.-Vol.52,N3/II.-P.2578-2581.
  • Gram H.C. The causes of the variation in the sedimentation of the corpuscles and the formation of the crusta phlogista on the blood // Arch.Intern.Med.-1921.-Vol.28.-P.312-330.
  • Gram H.C. The sedimentation of the blood-corpuscles in various internal diseases and the result of correction of this value for the variations of the hemoglobin percentage // Acta Med.Scand.-1929.-Vol.70,N2-3.-P.242-275.
  • Grant E.H., Sheppard R.J. Relationship between the electrical permittivity of whole blood and the haemoglobin content // Phys.Med.Biol.-1974.-Vol.19,N2.-P.153-160.
  • Grasel T.G., Wilson R.S., Lelah M.D., Bielich H.W., Cooper S.L. Blood flow and surface-induced thrombosis // Trans.ASAIO.-1986.-Vol.32,N1.-P.515-520.
  • Gratama J.W., van der Linden R., van der Holt B., Bolhuis R.L., van de Winkel J.G. Analysis of factors contributing to the formation of mononuclear cell aggregates ("escapees") in flow cytometric immunophenotyping // Cytometry.-1997.-Vol.29,N3.-P.250-260.
  • Graussy R.U. Erythrocyte sedimentation rate apparatus and method // Пaв. 4392497 CШA. Зa鹿. 2.12.80, N212134, oѓг°Ђ. 12.07.83. MKИ G01 N 33/48, MKИ 1281637.-1983.
  • Graveney M.J. Gravimetric density analysis of blood and plasma // J.Physiol.-1981.-Vol. 317.-P.12P.
  • Grebe R., Schmid-Schonbein H. Tangent counting for objective assessment of erythrocyte shape changes // Biorheology.-1985.-Vol.22,N6.-P.455-469.
  • Grebe R., Zuckerman M.J. Erythrocyte shape simulation by numerical optimization // Biorheology.-1990.-Vol.27,N5.-P.735-746.
  • Green A.E., Hickton M.P. Should plasma viscosity replace the ESR? // Brit.J.Haematol.-1994.-Vol.86,N4.-P.896.
  • Greene H.L., Chalasani V.R., Nokes R.F. Effects of drag reducing polymer on hemolysis rates during extracorporeal pumping // Proc.26th Annu.Conf.Eng.Med.Biol.-Washington.-1973.-P.414.
  • Greene H.L., Madan S.R. The role of fluid viscoelasticity during in vitro destruction of erythrocytes // Biorheology.-1975.-Vol.12,N6.-P.377-382.
  • Greene H.L., Mostardi R.A., Nokes R.F. Effects of drag reducing polymers on initiation of atherosclerosis // Polymer Eng.and Sci.-1980.-Vol.20,N7.-P.499-504.
  • Greene H.L., Mostardi R.A., Thomas L.C., Nokes R.F. Application of drag reducing polymers to the study of atherosclerosis // Amer.Chem.Soc.Polym.Prepr.-1978.-Vol.19,N1.-P.390-396.
  • Greene H.L., Nokes R.F., Thomas L.C. Biomedical implications of drag reducing agents // Biorheology.-1971.-Vol.7,N4.-P.221-223.
  • Greene H.L., Nokes R.F., Thomas L.C. Drag reduction phenomena // ASME Sympos.Flow. May,1971. Pap.4-4-64.-1971.
  • Greene H.L., Nokes R.F., Thomas L.C. Drug reduction phenomena in pulsed blood flow // Flow. Its Measurement...Vol.3.-1974.-P.1459-1464.
  • Greene H.L., Sebok D.A., Jenkins D.L. Characterization of disturbed flows of blood and sucrose solutions during extracorporeal pumping // AIChE Symp.Ser.-1978.-Vol.74,N182.-P.22-26.
  • Greene H.L., Thomas L.C., Mostardi R.A., Nokes R.F. Potential biomedical applications of drag reducing agents // Proc.Int.Conf.Drag Reduct., Cambridge, 1974.-Cranfield.-1974.-P.H2/17-H2/27.
  • Greenspan H.P. On centrifugal separation of a mixture // J.Fluid Mech.-1983.-Vol.127.-P.91-101. Greenspan H.P., Ungarish M. On hindered settling of particles of different sizes // Int.J.Multiphase Flow.-1982.-Vol.8,N6.-P.587-604.
  • Greenspan H.P., Ungarish M. On the enhancement of centrifugal separation // J.Fluid Mech.-1985.-Vol.157.-P.359-373.
  • Greenwalt T.J., Steane E.A. Quantitative haemoagglutination VI. Relationship of sialic acid content of red cells and aggregation by polybrene, proteine and polylysine // Brit.J.Haematol.-1973.-Vol.25,N2.-P.217-237.
  • Gregersen M.I., Bryant C.A., Chien S., Dellenback R.J., Magazinovich V., Usami S. Species differences in the flexibility and deformation of erythrocytes (RBC) // Bibl.Anat.-1969.-Vol.10.-P.104-108.
  • Gregersen M.I., Bryant C.A., Hammerle W.E., Usami S., Chien S. Flow characteristics of human erythrocytes through polycarbonate sieves // Science.-1967.-Vol.157,N3790.-P.825-827.
  • Gregersen M.I., Peric B., Chien S., Sinclair D., Chang C., Taylor H. Viscosity of blood at low shear rates: observations on its relation to volume concentration and size of the red cells // Proc.4th Int.Congr.Rheol.Pt.4.- New York etc.-1965.-P.613-628.
  • Gregersen M.I., Usami S., Bryant C.A., Magazinovich V., Chien S. Evidence on species differences in erythrocyte deformability by filtration through micropores (polycarbonate sieves) // Proc.5th Int.Congr.Rheol.Vol.2.-Tokyo;Baltimore.-1970.-P.109-113.
  • Gregory J. Particle interactions in flow suspensions // Adv. Colloid and Interface Sci.-1982.-Vol.17.-P.149-160.
  • Gregory K., Basmadjan D. An analysis of the contact phase of blood coagulation: effects of shear rate and surface are intertwined // Ann.Biomed.Eng.-1994.-Vol.24,N2.-P.184-193.
  • Grendahl M.J., Clyde R.O., Evans R.L. Intracellular forces and separation energy of red cells sludge by contrast medium // Proc.Soc.Exp.Biol.and Med.-1965.-Vol.118.-P.1124-1127.
  • Grigorian S.S., Kameneva M.V. Resistance-reducing polymers in the blood circulation // Contemp.Problems of Biomech. - Moscow; Boca Raton,Fla.-1990.-P.99-110.
  • Groom A.C., Anderson J.C. Measurement of the size distribution of human erythrocytes by a sedimentation method // J.Cell Physiol.-1972.-Vol.79,N1.-P.127-138.
  • Gross J., Aroesty J. The fluid mechanics of pulsatile flow in the microcirculation // Fluid Dynam. Trans. Vol. 6. Part 2. Proc. 10th Symp. Adv Probl. and Math. in Fluid Mech., Rynia, 1971. wARSZAWA.-1971.-P.257-268.
  • Gross J.F., Secomb T.W. Rheological behavior of blood in ischemia // Advances in Vascular Pathology 1990, eds. A. Strano and S. Novo. Elsevier,.-1990.-P.217-222.
  • Grotta J., Ackerman R., Correia J., Fallick G., Chang J. Whole blood viscosity parameters and cerebral blood flow // Stroke.-1982.-Vol.13,N3.-P.296-301.
  • Grover F.L., Heron M.W., Newman M.M., Paton B.C. Effect of nonionic surface active agent on blood viscosity and platelet adhesiveness // Circulation.-1969.-Vol.39,NSuppl.1.-P.249-252.
  • Gruber U.F. Therapeutic possibilities with biopolymers // Clin.Hemorheol.-1983.-Vol.3,N6.-P.551.
  • Grum A., Anderson J.C. Measurement of the size distribution of human erythrocyte by a sedimentation method // J.Cell Physiol.-1972.-Vol.79.-P.127-138.
  • Gruner A., Bohme H.-R. Zum Einfluss der Grossenverteilung menschlicher Erythrocyten auf die durch Hamatokrit und Differentialhamatokrit beurteilte Fliessfahigkeit von EDTA-Vollblut // Wiss.Z.E.M.Arndt - Univ., Greifswald. Med. R.-1988.-Vol.37,N 2-3.-P.117-120.
  • Gueguen M., Bidet J.M., Durand F., Driss F., Joffre A., Genetet B. Filtration pressure and red blood cell deformability: evaluation of a new device: erythrometre // Biorheology.-1984,NSuppl.1.-P.261-265.
  • Gueguen M., Delamaire D., Durand F., Deugnier Y., Bourel M., Genetet B. Haemorheological abnormalities in chronic alcoholism // Clin.Hemorheol.-1984.-Vol.4,N2/3.-P.327-340.
  • Gueguen-Duchesne M., Durand F., Beillot J., Legoff M.C., Dezier J.F., Pommereuil M., Genetet B. Effect of maximal physical exercise on hemorheological parameters in top level sportsmen // Clin.Hemorheol.-1989.-Vol.9,N4.-P.625-632.
  • Guerra E.M., Martini M.H., Brigido B.M., Ruvieri V., Campa S.B. Avaliacao da utilizacao de dois anticoagulantes e tempos diferentes para a realizacao do VHS, metodo de Westergren // Rev. bras. patol. clin.-1992.-Vol.28,N4.-P.115-119.
  • Guidoin R.G., Awad J.A., Domurado D., Haggis G.H. Thrombus formation in a staged capillary membrane oxygenator associated with a microaggregate blood filter: a scanning electron microscope study // J Biomed Mater Res.-1978.-Vol.12,N3.-P.255-269.
  • Guilford W.H., Lantz R.C., Gore R.W. Locomotive forces produced by single leukocytes in vivo and in vitro // Amer.J.Physiol.-1995.-Vol.268,N5,Pt1.-P.1308-1312.
  • Guizouarn Helene, Motais Rene Swelling activation of transport pathways in erythrocytes: Effects of С1', ionic strength, and volume changes // Amer. J. Physiol.-1999.-Vol.276,N1, Pt 1..-P.210-220.
  • Gulley M.L., Ross D.W., Feo C., Orringer E.P. The effect of cell hydration on the deformability of normal and sicke erythrocytes // Amer.J.Hematology.-1982.-Vol.13,N4.-P.283-291.
  • Gupta B.B. Enhancement of plasma separation in membrane plasmapheresis by pulsatile blood flow // Biocybern.and Biomed.Eng.-1991.-Vol.11,N3-4.-P.19-30.
  • Gupta B.B., Ding L.H., Jaffrin M.Y. High efficiency small membrane area plasmapheresis using pulsatile blood flow // Progress in Artif.Organs. - Cleveland, Oh.-1986.-P.891.
  • Gupta B.B., Garg V.C. Analysis of anomalous effects in microcirculation; empirical relations // Biorheology.-1983.-Vol.20,N6.-P.817.
  • Gupta B.B., Jaffrin M.Y., Ding L.H., Dohi T. Membrane plasma separation through small-area, hollow-fiber filters // Artif.Organs.-1986.-Vol.10,N1.-P.45-51.
  • Gupta B.B., Nigam K.M., Jaffrin M.Y. A three-layer semi-empirical model for flow of blood and other particulate suspensions through narrow tubes // Trans ASME: J Biomech Eng.-1982.-Vol.104,N2.-P.129-135.
  • Gupta B.B., Seshadri V. Flow of red blood cell suspensions through narrow tubes // Biorheology.-1977.-Vol.14,N2-3.-P.133-143.
  • Gustavsson C.G., Persson S.U., L.Arsson H., Persson S. Blood viscosity in relation to blood and haemoglobin concentration in healthy subjects and in patients with different cardiovascular diseases // Clin.Hemorheol.-1994.-Vol.14,N5.-P.677-684.
  • Guzelsu A.N., Akcasu A. A mathematical model for the erythrocyte sedimentation rate in view of surface charge of erythrocytes // Proc.27th ACEMB.-1974.-P.60.
  • Haar G.T., Wyard S.J. Blood cell banding in ultrasonic standing wave field: aphysical analysis // Ultrasound Med.Biol.-1978.-Vol.4.-P.111-123.
  • Hacioglu G., Yalcin O., Mete F., Bor-Kucukatay M., Ozkaya G., Baskurt O.K. Red blood cell rheological properties in various rat hypertension models // Int.Conf.Biorheol.and School for Young Scientists.-Sofia.-2000.-P.134-138.
  • Hackel E., Smith A.E., Montgomery D.J. Agglutination of human erythrocytes // Biological effects of magnetic fields. - N.-Y.:Plenum Press,.-1964.-P.218-228.
  • Hadengue A., Razavian S.M., Del-Pino M., Simon A., Levenson J. Influence of sialic acid on erythrocyte aggregation in hypercholesterolemia // Thromb Haemost.-1996.-Vol.76,N6.-P.944-949. H
  • adengue A.L., Del-Pino M., Simon A., Levenson J. Erythrocyte disaggregation shear stress, sialic acid, and cell aging in humans // Hypertension.-1998.-Vol.32,N2.-P.324-330.
  • Haest C.W.M., Fischer T.M., Kamp D., Deuticke B. Controlled experimental decrease of the deformability of the human erythrocyte // Pflugers Arch.-1978.-Vol.373,NSuppl22.-P.R22.
  • Haest C.W.M., Fischer T.M., Plasa G., Deuticke B. Stabilization of erythrocyte shape by a chemical increase in membrane shear stiffness // Blood Cells.-1980.-Vol.6,N3.-P.539-554.
  • Hahn R., Muller-Seydlitz P.M., Jockel K.H., Hubert H., Heimburg P. Viscoelasticity and red blood cell aggregation in patients with coronary heart disease // Angiology.-1989.-Vol.40.-P.914-920.
  • Haider L., Bertholom P., Tourain C., Guillet R., Boynard M. Ultrasonic estimation of red blood cell aggregation in a controlled shear rate // Biorheology.-1995.-Vol.32,N2-3.-P.123-123.
  • Hakim J. Consequences of neutrophil adhesion to physiological and pathological targets // Biorheology.-1990.-Vol.27,N3/4.-P.419-424.
  • Hakim T.S., Macek A.S. Effect of hypoxia on erythrocyte deformability in different species // Biorheology.-1988.-Vol.25,N6.-P.857-868.
  • Halder K., Dey K.N. Effect of erythrocyrtes on the flow characteristics of blood in an indented tube // Arch.Mech.-1990.-Vol.42.-P.109-114.
  • Halikas G.C. Vortex trails behind a cylinder in ox blood // Biorheology.-1970.-Vol.6,N3.-P.189-199.
  • Hall C.L., Slack S.M., Turitto V.T. A computational analysis of FXa generation by TF: FVIIa on the surface of rat vascular smooth muscle cells // Ann.Biomed.Eng.-1998.-Vol.26,N1.-P.28-36.
  • Hall C.L., Taubman M.B., Nemerson Y., Turitto V.T. Factor Xa generation at the surface of cultured rat vascular smooth muscle cells in an in vitro flow system // Trans.ASME: J.Biomech.Eng.-1998.-Vol.120,N4.-P.484-490.
  • Halpern D., Secomb T.W. The squeezing of red blood cells through parallel-sided channels with near-minimal widths // J. Fluid Mech.-1992.-Vol.244.-P.307-322.
  • Ham J.M., Homsy G.M. Hindered settling and hydrodynamic dispersion in quiescent sedimenting suspensions // Int.J.Multiphase Flow.-1988.-Vol.14,N5.-P.533-546.
  • Hanin M. Ein verfahren und einrichtungen fur die entkupplung der zusammengebailten eritroziten im blut des menschen und tieren // ЗaпҐka 4308407 ФPГ, MKИ5 A61 N 2/04. N 4308407.9; Зa鹿.12.03.93; Oѓг°Ђ. 30.09.93.-1993.
  • Hanley H.J.M., Evans D.J. A thermodynamics for a system under shear // J.Chem.Phys.-1982.-Vol.76,N6.-P.3225-3232.
  • Hanson S.R., Harker L.A., Ratner B.D., Hoffman A.S. Factors influencing platelet consumption by polyacrylamide hydrogels // Ann.Biomed.Eng.-1979.-Vol.7.-P.357-367.
  • Hanss M. Erythrocyte filtrability measurement by the initial flow rate method // Biorheology.-1983.-Vol.20,N2.-P.199-211.
  • Harasaki H., Davies C. Effects of waste heat on blood components // Int.J.Artif.Organs.-1993.-Vol.16,N6.-P.463.
  • Hardeman M.R. Proposals for standardization in red cell rheology // Supplem.Abstrs of 9th Int.Congr.Biorheol.-1995.-P.s.p..
  • Hardeman M.R., Bauersachs R.M., Meiselman H.J. RBC laser diffractometry and RBC aggregometry with a rotational viscometer: comparison with rheoscope and Myrenne Aggregometer // Clin.Hemorheol.-1988.-Vol.8,N5.-P.581-594.
  • Hardeman M.R., Goedhart P.T. Laser-assisted optical rotational cell analyser (LORCA); a new instrument for measurement of various structural hemorheological parameters // Biorheology.-1995.-Vol.32,N2-3.-P.121.
  • Hardeman M.R., Goedhart P.T., Dobbe J.G.G., Lettinga K.P. Laser-assisted optical rotational cell analyser (L.O.R.C.A.); I. A new instrument for measurements of various structural hemorheological parameters // Clinical Hemorheology.-1994.-Vol.14,N4.-P.605.
  • Hardwick R.A., Gritsman H.N., Stromberg R.R., Friedman L.I. The biochemical mechanisms of shear-induced platelet aggregation // Trans.Amer.Soc.Artif.Organs.-1983.-Vol.29.-P.448-453.
  • Hardwicke J., Squire J.R. The basis of the erythrocyte sedimentation rate // Clin.Sci.-1952.-Vol.11.-P.335-355.
  • Harell G.S., Corbet A.B., Dickhoner W.H., Bradley B.R. The intraluminal distribution of 15-mcm-diameter carbonized microspheres within arterial microvessels as determined by vital microscopy of golden hamster cheek pouch // Microvasc.Res.-1979.-Vol.18.-P.384-402.
  • Harkness J. Comparison of the E.S.R. and plasma viscosity tests // Clin.Hemorheol.-1989.-Vol.9,N1.-P.35-40.
  • Harkness J. The viscosity of human blood plasma: its measurement in health and disease // Biorheology.-1999.-Vol.718.-P.171-184.
  • Harlan J.M. Leukocyte-endothelial interactions // Blood.-1985.-Vol.65,N3.-P.513-525.
  • Harmening D. (ed.) Modern Blood Banking and Transfusion Practices // Clin. Hemorheol.-1989.-Vol.9,N4.-P.681-683.
  • Harris J. A continuum theory of time-dependent inelastic flow // Rheol.Acta.-1967.-Vol.6,N1.-P.6-12.
  • Harris J. Some flow properties of whole blood // Nature.-1966.-Vol.209,N23.-P.610-611.
  • Harris J.W., Kellemeyer R.W. The red cell production, metabolism, destruction: Normal and abnormal // Cambridge: Harvard Univ.Press.-1970.
  • Harrison M.J., Pollock S.S., Weisblatt E. Haematocrit and platelet aggregation // Lancet.-1984.-Vol.2,N8409.-P.991-992.
  • Hartert H. Apparatus for measurement of retraction of blood clots // Flow Properties of Blood and Other Biol.Systems.- Oxford etc.-1960.-P.375-376.
  • Hartert H. Clotting in layers in the rheo-simulator // Biorheology.-1975.-Vol.12,N3-4.-P.249-252.
  • Hartert H. Fibrin elasticity and coagulation // Biorheology.-1988.-Vol.25,N1/2.-P.137-146.
  • Hartert H. Orbitometer flow and thrombus formation // Biorheology.-1990.-Vol.27,N6.-P.921-929.
  • Hartert H. Resonance thromboelastography // Biorheology.-1983.-Vol.20,N6.-P.817.
  • Hartert H. Rheo-simulation: a new method for the assay of clotting process and factor XIII. A preliminary report // Biorheology.-1974.-Vol.11,N5.-P.355-360.
  • Hartert H. Thrombelastography: physisical and physiological aspects // Flow Properties of Blood and Other Biol.Systems.- Oxford etc.-1960.-P.186-196.
  • Hartert H. Clot retraction. Kinetics and correlation with the clotting process // Proc.4th Int.Congr.Rheol. Pt.4. Symp.on Biorheol.- New York etc.-1965.-P.571-580.
  • Hartert H.H. Resonance-thrombography, theoretical and practical elements // Biorheology.-1981.-Vol.18.-P.693-701.
  • Hartwig J.H., DeSisto M. The cytoskeleton of the resting human blood platelet: structure of the membrane skeleton and its attachment to actin filaments // J.Cell Biol.-1991.-Vol.112,N3.-P.407-426. H
  • artwig W.L., Cohn I. Erythrocyte sedimentation rate and blood viscosity as modified by fat emulsions // Amer.J.Physiol.-1960.-Vol.199.-P.800.
  • Harvey J. W., Turitto V.T., Baumgartner H.R. Effect of shear rate on platelet interaction with subendothelium in citrated and native blood. I.Shear rate-dependent decrease of adhesion in von Willbrand's disease and the Bernard-Soulier syndrome // J.Lab.Clin.Med.-1978.-Vol.92,N5.-P.750-764.
  • Hasegawa S., Rodgers G.P., Shio H., Schechter A.N., Uyesaka N. Impaired deformability of Heinz body-forming red cells // Biorheology.-1993.-Vol.30,N3/4.-P.275-286.
  • Hashimoto S. Clot growth under periodically fluctuating shear rate // Biorheology.-1994.-Vol.31,N5.-P.521-532.
  • Hashimoto S. Erythrocyte destruction under periodically fluctuated shear rate: Comparative study with constant shear rate // Artif. Organs.-1989.-Vol.13.-P.458-463.
  • Hashimoto S., Maeda H., Sasada T. Effect of shear rate on clot growth at foreign surfaces // Artif. Organs.-1985.-Vol.9,N4.-P.345-350.
  • Hashimoto S., Sasada T. Clot formation under uniform shear fields. Evaluation of clot growth by concave-convex cone system // Nihon kikai gakkai ronbunshu.B. // =Trans.Jap.Soc.Mech.Eng.B.-1993.-Vol.59,N568.-P.3739-3742.
  • Hattori K., Izumi K. A rheological expression of coagulation rate theory // J.Dispers.Sci.Technol.-1982.-Vol.3,N2.-P.129-193.
  • Hauck G. Physiological aspects of the hemorheology // Clin.Hemorheol.-1983.-Vol.3,N6.-P.540.
  • Hause L.L., McLean M.R. Platelet dynamics during aggregation // Proc.37th ACEMB. - Washington, DC.-1984.-P.51.
  • Hause L.L., Retzinger G.S., Megan P.A. A compartmental model of platelet aggregation in vitro: the kinetics of single platelets // Thromb Res.-1989.-Vol.56,N2.-P.133-146.
  • Hausler K., Reinhart W.H., Schaller P., Dual J., Goodbread J., Sayir M. A newly designed oscillating viscometer for blood viscosity measurements // Biorheology.-1996.-Vol.33,N4-5.-P.397-404.
  • Hayakawa M., Kuzuya F. Effects of ticlopidine on erythrocyte aggregation in thrombotic disorders // Angiology.-1991.-Vol.42.-P.747-753.
  • Haynes R.H. Physical basis of the dependence of blood viscosity on tube radius // Amer.J.Physiol.-1960.-Vol.198,N6.-P.1193-1200.
  • Haynes R.H. The rheology of blood // Trans.Soc.Rheol.-1961.-Vol.5.-P.85-101.
  • Haynes R.H., Burton A.C. Axial accumulation of cells and the rheology of blood // Proc.1st Nat.Biophys.Confer.- Yale Univ.Press.-1959.-P.452-459.
  • Haynes R.H., Burton A.C. Role of the non-newtonian behavior of blood in hemodynamics // Amer.J.Physiol.-1959.-Vol.197,N5.-P.943-950.
  • Hazel A.L., Pedley T.J. Mass transport near an oscillating stagnation point // Physiol.Flows and Flow-Struct.Interact.- Graz.-1999.-P.40.
  • Healy J.-C. Bases physiques de l`hemorheologie // J.med.nucl.et biophys.-1989.-Vol.13,N 1.-P.3-13.
  • Healy J.C. Methode physique de mesure des energies de liason intererythrocytaire // Biorheology.-1974.-Vol.11,N3.-P.185-190.
  • Healy J.C., Joly M. Rheological behavior of blood in transient flow // Biorheology.-1975.-Vol.12,N6.-P.335-340.
  • Hebbel R.P., Mohandas N. Reversible deformation-dependent red blood cell cation leak // Biophys.J.-1991.-Vol.60,N3.-P.712-715.
  • Heidrich H.G., Mrema J.E., Vander Jagt D.L., Reyes P., Rieckmann K.H. Isolation of intracellular parasites (Plasmodium falciparum) from culture using free-flow electrophoresis: separation of the free parasites according to stages // J Parasitol.-1982.-Vol.68,N3.-P.443-450.
  • Heidrich H.G., Russmann L., Bayer B., Jung A. Free-flow electrophoresis for the separation of malaria infected and uninfected mouse erythrocytes and for the isolation of free parasites Plasmodium vinckei - a new rapid technique for the liberation of malaria parasites from their host cells // Z Parasitenkd.-1979.-Vol.58,N2.-P.151-159.
  • Heilmann L. Hamorheologie und Schwangerschaftschochdruck // Zbl.Gynakol.-1994.-Vol.116,N3.-P.138-142.
  • Heilmann L. ypervolemic hemodilution in the treatment of pre-eclampsia // Clin.Hemorheol.-1983.-Vol.3,N6.-P.550.
  • Heilmann L., Miller B. Effect of beta-blocking agents on hemorheological properties // Clin.Hemorheol.-1988.-Vol.8,N1.-P.31-38.
  • Hein H.J., Bauersachs R.M., Feinstein E.I., Meiselman H.J. Hemorheological abnormalities in chronic renal failure // Clin.Hemorheol.-1988.-Vol.8,N3/4.-P.425-432.
  • Heist\"o H., Godal H.C., Grottum K.A., Madsen G., Uggerud B. Increased erythrocyte sedimentation rate probably due to a red cell factor // Scand.J.Haematol.-1969.-Vol.6,N6.-P.427-430.
  • Heisto H., Godal H.C., Grottum K.A., Grethe M., Bjory U. Increased erythrocyte sedimentation rate probably due to a red cell factor // Scand.J.Haematol.-1969.-Vol.6,N6.-P.427-430.
  • Hejl J., Hejlova N., Zelnicek K. [Use of the computer for the evaluation of platelet aggregation] // Vnitr Lek.-1990.-Vol.36,N10.-P.985-990.
  • Helander P., Lundstrom I. Whole blood - a sedimenting sample studied by photoacoustic spectroscopy // J.Photoacoustics.-1982.-Vol.1,N2.-P.203-215.
  • Hellem A., Borchgrevin K.C., Ames S.B. The role of the red cell in haemostasis: the relation between haematocrit, bleeding time and platelet adhesiveness // Brit.J.Haematol.-1961.-Vol.7,N1.-P.42-50.
  • Hellum A.J. The adhesiveness of human blood platelets in vitro // Scand.J.Clin.Lab.Invest.-1960.-Vol.12,NSuppl.51.-P.1-117.
  • Hellums J.D. 1993 Whitaker lecture: Biorheology in thrombosis research // Ann.Biomed.Eng.-1994.-Vol.22,N5.-P.445-455.
  • Hemker H.C., Tans G. The role of surfaces in the mechanism of blood coagulation // Basic Asp.Blood Trauma.-Haag.-1979.-P.134-149.
  • Hemker M.C., Beguin S. Pourquoi les schemas de coagulation sont-ils faux? // STV: Sang, thrombose, vaisseaux.-1994.-Vol.6,N9.-P.619-625.
  • Henriksen M., Hogan H.A. A parametric study of micropolar theory for applications in biomechanics-fluid flow // Congr.Theor.and Appl.Mech.,Lyngby,19-25 Aug., 1984.Abstr.Lect.S.l.,s.a.-1984.-P.570.
  • Herbst M.D., Goldstein J.H. A review of water diffusion measurement by NMR in human red blood cells // Amer.J.Physiol.-1989.-Vol.256,N5,pt.1.-P.C1097-C1104.
  • Hernandez G., Bollini A., Bazzoni G., Bravo L.na M., Rasia M. Viscosity-hematocrit relationship in bovine 18 blood // Commun. biol.-1996.-Vol.14,N3.-P.317.
  • Herrmann A., Lassmann G., Groth T., Donath E., Hillebrecht B. Conformational alterations within the glycocalyx of erythrocyte membranes studied by spin labelling // Biochim Biophys Acta.-1986.-Vol.861,N1.-P.111-121.
  • Herrmann K.S., Kreuzer H. Hemorheological parameters of anti-thrombotic agents. Naftidrofuryl and aspirin // Clin.Hemorheol.-1988.-Vol.8,N3/4.-P.399-406.
  • Herrmann T., Gremillet E., Juge J., Champailler A., Rusch P., Healy J.C. Non-invasive method to measure red blood cells transit time through the microcirculation of the brain // Clin.Hemorheol.-1988.-Vol.8,N3/4.-P.461-466.
  • Hershey D., Cho S.J. Blood flow in rigid tubes: thickness and slip velocity of plasma film at the wall // J.Appl.Physiol.-1966.-Vol.21,N1.-P.27-32.
  • Hershey D., Cho S.J. Laminar flow of suspensions: (blood): thickness and effective slip velocity of the film adjacent to the wall // Chem.Eng.Progr.Symp.Ser.-1966.-Vol.62,N66.-P.140-145.
  • Hershey D., Gupta B.P. The effect of tube diameter on the laminar regime transition for a non-Newtonian suspension (blood) // Biorheology.-1968.-Vol.5,N4.-P.313-321.
  • Hess S., Loose W. Shear-induced structural changes // Progr.Coll.and Polymer Sci.-1990.-Vol.81.-P.99.
  • Hessel E., Lerche D. Cell surface alterations during blood-storage characterized by artificial aggregation of washed red blood cells // Vox Sang.-1985.-Vol.49,N2.-P.86-91.
  • Heubach S., Watkins J. A stochastic model for the movement of a white blood cell // Adv. Appl. Probab.-1995.-Vol.27,N2.-P.443-475.
  • Heuvelmans J.H.A., Aarts P.A.M.M., Goslinga H. Standardization and automation of the measurement of whole blood viscosity // Clin.Hemorheol.-1989.-Vol.9,N4.-P.593-602.
  • Heyd G.J.H., Groom A.C. Determination of red cell aggregability by a sedimentation method and effect of pH on PVP-induced aggregation of young vs. old cells // J.Cell Physiol.-1976.
  • Higashi T., Sagawa S., Kawaguchi N., Yamagishi A. Effects of a strong static magnetic field on blood platelets // Platelets.-1993.-Vol.4,N6.-P.341-342.
  • Higashitani K., Miyafusa S., Matsuda T., Matsuno Y. Axial change of total particle concentration in Poiseuille flow // J. Coll.Interface Sci.-1980.-Vol.77.-P.21-28.
  • Hilario S., Saldanha C., Martins-Silva J. The effect of adrenaline upon human erythrocyte properties. Sex-related differences? // Biorheology.-1999.-Vol.36,N1-2.-P.124.
  • Hill C.D. Two-dimensional stability of particulate sedimentation // Phys.Fluids.-1980.-Vol.23,N4.-P.667-668.
  • Hill C.D., Bedford A. A model of erythrocyte sedimenmtation // Biorheology.-1981.-Vol.18,N2.-P.255-266.
  • Hill C.D., Bedford A. Stability of the equations for particulate sedimentation // Phys.Fluids.-1979.-Vol.22,N7.-P.1252-1254.
  • Hill C.D., Bedford A., Drumheller D.S. An application of mixture theory to particulate sedimentation // Trans. ASME: J.Appl.Mech.-1980.-Vol.47,N2.-P.261-265.
  • Hill D.W., Thompson F.D. The effect of hematocrit on the resistivity of human blood at 38 C and 100 KHz // Med.Biol.Eng.-1975.-Vol.13.-P.182-186.
  • Hill J.M. Plane steady solutions for stress-assisted diffusion // Mech.Res.Comm.-1979.-Vol.6,N3.-P.147-150.
  • Hill P.J. A preliminary evaluation of a micro-method for erythrocyte sedimentation rate // N.Z.J.Med.Lab.Technol.-1980.-Vol.34,N3.-P.85-88.
  • Hinghofer-Szalkay H. Method of high-precision microsample blood and plasma mass densitometry // J.Appl.Physiol.-1986.-Vol.60,N3.-P.1082-1088.
  • Hinghofer-Szalkay H. Volume and density changes of biological fluids with temperature // J.Appl.Physiol.-1985.-Vol.59,N6.-P.1686-1689.
  • Hinghofer-Szalkay H., Kenner T., Leopold H., Holzer H. Die Anwendung der Biegeschwingermethode zur Messung von Blutdichte und Haematokrit // Klin.Wochenschr.-1979.-Vol.57.-P.1163-1167.
  • Hinghofer-Szalkay H., Leopold H., Kenner T., Holzer H. Ueber den thermischen Ausdehnungkoefficienten des Blutes und seiner Komponenten // Biomed.Techn.-1980.-Vol.25.-P.151-157.
  • Hiruma K., Toyama Y., Sakanishi A. Erythrocyte aggregation under high pressure analyzed by laser photometry // Biorheology.-1999.-Vol.36,N4.-P.340.
  • Hitt D.L., Lowe M.L. Confocal imaging of flows in artificial venular bifurcations // Trans ASME: J Biomech Eng.-1999.-Vol.121,N2.-P.170-177.
  • Hladovec J. A sensitive model of venous thrombosis in rats // Thrombosis Res.-1986.-Vol.43,N5.-P.539-544.
  • Hladovec J. Antithrombotics in view of thrombosis models // Thromb.Res.-1986.-Vol.43,N5.-P.545-551.
  • Hladovec J., Riha P. The model of thrombosis and trombolysis in vitro // Thromb.Res.-1975.-Vol.7,N5.-P.743-752.
  • Ho B.P., Leal L.G. Inertial migration of rigid spheres in two-dimensional udidirectional flows // J.Fluid Mech.-1974.-Vol.65.-P.365-400.
  • Hochmuth R.M. Properties of red blood cells // Handbook of Bioengineering. - New York etc.-1987.-P.12.1-12.17.
  • Hochmuth R.M., Berk D.A. Analytical solutions for shear deformation and flow of red cell membrane // Trans.ASME: J.Biomech.Eng.-1984.-Vol.106.-P.2-9.
  • Hochmuth R.M., Mohandas N., Seshadri V., Sutera S.P. Deformation of red cell in shear flow: AIAA Paper No.104-1971, 10 p.
  • Hochmuth R.M., Needham D. The viscosity of neutrophils and their transit times through small pores // Biorheology.-1990.-Vol.27,N6.-P.817-828.
  • Hocking M.B., O'Brien R.N. Importance of convection to the enhancement of erythrocyte sedimentation rates in inclined tubes // Biorheology.-1987.-Vol.24,N5.-P.473-482.
  • Hofer M., Perktold K. Computer simulation of concentrated fluid-particle suspension flows in axisymmetric geometries // Biorheology.-1997.-Vol.34,N4-5.-P.261-279.
  • Hofer M., Perktold K. Numerical simulation of fluid-particle suspension flows and application to hemodynamics // Physiol.Flows and Flow-Struct.Interact.- Graz.-1999.-P.60.
  • Hoffman J.F. Active transport of Na+ and K+ by red blood cells // Physiol. Membrane Disorders.- New York; London.-1986.-P.221-234.
  • Hoffman R. Discontinuous and dilatent behavior in concentrated suspensions. I. Observation od flow instability // Trans.Soc.Rheol.-1972.-Vol.16.-P.155-173.
  • Hoffman R.L. Discontinuous and dilatant viscosity behavior in concentrated suspensions. i .Observation of a flow instability // Trans.Soc.Rheol.-1972.-Vol.16,N1.-P.155-173.
  • Hogan H.A., Henriksen M. An evaluation of micropolar continuum theory for describing blood flow // SECTAM XII. Vol.1.-1984.-P.502-508.
  • Hokkanen J.E. A two-fluid model for hematocrit distribution in microvascular networks // Med Phys.-1989.-Vol.16,N3.-P.319-325.
  • Holdstock G., Mitchell J.R.A. Erythrocyte-sedimentation rate before and after in-vitro defibrination: a rapid and simple method for increasing its specificity // Lancet.-1977.-Vol.11,N8052-3.-P.1314-1316.
  • Holley L., Woodland N., Hung Wai Tak, Cordatos K., Reuben A. Influence of fibrinogen and haematocrit on erythrocyte sedimentation kinetics // Biorheology.-1999.-Vol.36,N4.-P.287-297.
  • Holloway G.M., O'Rear E.A., Fung B.M. Plasma-mediated alterations of erythrocyte deformability by perfluorochemical blood substitutes // Blood.-1986.-Vol.67,N1.-P.173-176.
  • Holzer H., Leopold H., Hinghofer-Szalkay H., Stuebchen-Kirchner H., Maurer E. Gesamteiweissbestimmung im Serum durch Dichtemessung nach der Biegeschwingermethode // J.Clin.Chem.Clin.Biochem.-1978.-Vol.16.-P.391-395.
  • Hooker D., Cotterrell D. Human erythrocyte ghosts deformability following calcium loading, heat or diamide treatment // J.Physiol.-1993.-Vol.467.-P.160.
  • Horak G. Real-time ultrasonic spectroscopy in suspensions // Acustica.-1977.-Vol.37,N1.-P.11-20.
  • Horimoto M., Koyama T., Mishima H., Asakura T. Pulsatile blood flow in arterioles of frog web // Biorheology.-1979.-Vol.16,N3.-P.163-170.
  • Horiuchi K., Stephens M.J., Adaci K., Asakura Z., Schwartz E., Ohene-Frempong K. Image analysis studies of the degree of irreversible deformation of sickle cells in relation to cell density and HbF level // Brit.J.Haematol.-1993.-Vol.85,N2.-P.356-364.
  • Horrer J., Holst D., Orth H. Ger\"at zur Messung der Blutsenkung.
  • Houbouyan L.L., Delamaire M., Beauchet A., Gentil M., Cauchois G., Taccoen A., Yvert J.P., Montredon N., Roudaut M.F., Zhao S., Goguel A., Potron G., Boisseau M., Stoltz J.F. Multicenter study of an erythro-aggregometer: quality control and standardization // Clin Hemorheol Microcirc.-1997.-Vol.17,N4.-P.299-306.
  • Houbouyan L.L., Delamaire M., Beauchet A., Yvert J.P., Roudaut M.F., Montredon N., Taccoen A.. Goguel A.. Potron G., Boisseau M., Stoltz J.-F. Calibration and quality control of erythrocyte aggregation. A multicentre study // Biorheology.-1999.-Vol.36,N9 1-2.-P.47.
  • Hoyt J.W., White W.D. High-polymer additive effect on turbulent flow of dextran, saline solution,and plasma // Proc.19th Annu.Conf.Eng.Med.Biol.-1966.
  • Hron J., Malek J., Turek S Numerical investigation of flows of shear-thinning fluids with applications to blood rheology // Int.J.Numer.Methods Fluids.-2000.-Vol.32,N7.-P.863-879.
  • Huang C., Chen H., Pan W., Shih T., Kristol D., Copley A. Effects of hematocrit on thixotropic properties of human blood // Biorheology.-1987.-Vol.24.-P.803-810.
  • Huang C.-R., Houng S.-S. Viscoelastic-thixotropy of blood // Clin. Hemorheology.-1995.-Vol.15,N1.-P.25-36.
  • Huang C.-R., Ma Y.-L.S.Z.-L., Copley A.L. Mathematical analysis of erythrocyte sedimentation rate // Biorheology.-1989.-Vol.26,N3.-P.595.
  • Huang C.R. A thermodynamic approach to generalized rheological equations of state for time-dependent and time-independent non-Newtonian fluids // Chem.Eng.J.-1972.-Vol.3.-P.100-104.
  • Huang C.R., King R., Copley A. Rheogoniometric studies of whole human blood at shear rates down to 0.0009 1/s. Part ii. Mathematical interpretation // Biorheology.-1973.-Vol.10,N1.-P.17-22.
  • Huang C.R., Siskovic N., Robertson R.W., Fabisiak W., Smitherberg E.H., Copley A.L. Quantitative characterization of thixotropy of whole human blood // Biorheology.-1975.-Vol.12,N5.-P.279-282.
  • Huang C.R., Whelan T.A., Copley A.L. A mathematical model of sedimentation analysis applied to human whole blood // Biorheology.-1971.-Vol.8,N3/4.-P.157-163.
  • Huang P.Y., Hellums J.D. Aggregation and disaggregation kinetics of human blood platelets: Part II. Shear-induced platelet aggregation // Biophys J.-1993.-Vol.65,N1.-P.344-353.
  • Hubbell J.A., McIntire L.V. Platelet active concentration profiles near growing thrombi. A mathematical consideration // Biophys.J.-1986.-Vol.50,N5.-P.937-946.
  • Hughes G.M., Albers C. Use of filtration methods in evaluation of the condition of fish red blood cells // J.Exp.Biol.-1988.-Vol.138.-P.523-527.
  • Huisman A., Aarnoudse J.G., Fidler V., Heuvelmans J.H.A., Goslinga H., Huisjes H.J., Zijlstra W.G. Plasma viscosity during normal pregnancy // Clin.Hemorheol.-1989.-Vol.9,N4.-P.553-558.
  • Huisman A., Aarnoudse J.G., Krans M., Huisjes H.J., Fidler V., Zijlstra W.G. Red cell aggregation during normal pregnancy // Brit.J.Haematol.-1988.-Vol.68.-P.121-124.
  • Humphreys W.V. The Viscosity of Blood and its Significance in Patients with Vascular Disease: Thesis.- Manchester, UK. Univ.of MAnchester-1976.
  • Hung T.-C., Hung T.-K., Bugliarello G. Blood flow in capillary tubes: curvature and gravity effects // Biorheology.-1980.-Vol.17,N4.-P.331-342.
  • Hung T.-C., Hung T.-K., Bugliarello G. Blood flow in straight and curved capillary glass tubes // J.Biomech.-1979.-Vol.12,N12.-P.945-947.
  • Hung T.-C., Hung T.-K., Bugliarello G. The flow of blood in small curved tubes // Proc. 24th ACEMB. - Washington, DC.-1971.-P.169.
  • Hung T.C., Panwa D., Abraham D.J. Effects od antisickling agents on sicle cell filterability // 1985 Biomech.Symp. - New York.-1985.-P.175-178.
  • Hung W.T., Collings A.F., Low J. Erythrocyte sedimnetation rate studies in whole human blood // Phys.Med.Biol.-1994.-Vol.39.-P.1855-1873.
  • Hung W.T., Collings A.F., Low J. Studies of the sedimnetation of human blood // Proc.10th Int.Congr.Rheol.Vol.1.-1988.-P.425-427.
  • Hunter R.L. Studies on the biologic activities and mechanisms of poloxamer 188 // Biorheology.-1995.-Vol.32,N2-3.-P.206.
  • Husband D.M., Gadala-Maria F. Anisotropic particle distribution in dilute suspensions of solid spheres in cylindrical Couette flow // J.Rheol.-1987.-Vol.31,N1.-P.95-110.
  • Husband D.M., Gadala-Maria F. Anisotropy in sheared dilute suspensions of solid spheres // Proc.9th Int.Congr.Rheol. Acapulco, Mexico. Vol.2.-1984.-P.521-528.
  • Husband D.M., Mondy L.A., Ganani E., Graham A.L. Direct measurements of shear-induced particle migration in suspensions of bimodal spheres // Rheol.Acta.-1994.-Vol.33,N??.-P.185-192.
  • Hussain M.A., Puniyani R.R., Kar S. Quantification of blood viscosity using power law model in cerebrovascular accidents and high risk controls // Clin.Hemorheol.-1994.-Vol.14,N5.-P.685-696.
  • Hussain M.A., Puniyani R.R., Kar S. Blood viscosity autoregulation factor in cerebrovascular accidents and high risk cases - A new approach // Clin. Hemorheology.-1995.-Vol.15,N1.-P.61-72.
  • Hussain M.A., Yamakawa T., Niimi H. Hematocrit dependence of cell-free layer thickness in cat cerebral arterioles: an intravital fluorescence microscopic observation // Biorheology.-1996.-Vol.33,N4-5.-P.407.
  • Hutchinson R.M., Eastman R.D. A comparison of the erythrocyte sedimentation rate and plasma viscosity in defecting changes in plasma proteins // J.Clin.Pathol.-1977.-Vol.30,N4.-P.345-349.
  • Hutchison K.J., Campbell J.D., Karpinski E. Reduction of poststenotic flow disturbances by polymer drag reducing agents // Microvasc.Res.-1989.-Vol.38,N1.-P.102-109.
  • Hutchison K.J., Campbell J.D., Karpinski E. Reduction of poststenotic flow disturbances by polymer drag reducing agents // Canad.Fed.Biol.Soc.-1986.-Vol.29.-P.99.
  • Huyghe J.M., Grootenboer H.J., van Campen D.H., Heethaar R.M. Intramyocardial blood rheology and heart muscle mechanics // 1983 Biomech.Symp. - New York.-1983.-P.241-244.
  • Hwang N.H.C., Gross D.R. (eds.) Hemovascular Rheology: Physics of Blood and Vascular Tissue. - Amsterdam: Sitthoff and Noordhoff-1981.
  • Hyman W.A. A simplified model of the oxygen supply function of capillary blood flow // Adv Exp Med Biol.-1973.-Vol.37.-P.835-841.
  • Hyman W.A. Augmented diffusion in flowing blood // Trans.ASME.:.-1975.-Vol.B97,N1.-P.58-60.
  • Hynes M., Whitby L.E.H. Correction of sedimentation rate for anemia // Lancet.-1938.-Vol.2,N5.-P.249-251.
  • Iakovenko E.E., Lisovskaya I.L., Ataullakhanov F.I. Theoretical model of filtration kinetics of the heterogeneous erythrocyte suspension through the membrane 3 filters // Biorheology.-1999.-Vol.36,N1-2.-P.130.
  • Ichev K. Observations of the marginal disposition of erythrocytes and leukocytes in terminal blood vessel // Bibl.anat.-1975,N13.-P.257-258.
  • Idonuma A., Dobashi T., Toyama Y., Sakanishi A. Erythrocyte sedimentation in plasma observed under microscope // Jap. J. Appl. Phys. Pt.1.-1994.-Vol.33,N4a.-P.2128-2131.
  • Iiang Y., Zhao K.-s., Li S.-x. Computer assisted analysis of leukocyte rheological behavior in microvasculature // Chin. Med. J.-1993.-Vol.106,N2.-P.883-888.
  • Iijima S., Otsuka F., Ohba H., Itoga H., Kikuchi Y. Rheological anomaly of neutrophils in Behcet's disease by suspension filtration time through a nuclepore filter // Clinical Hemorheology.-1995.-Vol.15,N2.-P.157-166.
  • Iino M. An effect of strong magnetic field on erythrocyte sedimentation rate. II // Biorheology.-1996.-Vol.33,N4/5.-P.409.
  • Iino M. An effect of strong magnetic field on erythrocyte sedimentation rate // Biorheology.-1996.-Vol.33,N1.-P.92.
  • Iino M. Effects of a homogeneous magnetic field on erythrocyte sedimentation and aggregation // New Trends.Exp.and Clin.Psychiat.-1996.-Vol.12,N4.-P.215-222.
  • Iino M., Arai K., Hasegawa S., Shio H., Uyesaka N. Theoretical analysis of factors regulating erythrocyte filterability // Biorheology.-1988.-Vol.25,N6.-P.903.
  • Iino M., Okuda Y. Erythocyte sedimentation in mediums with a low osmolality under a strong magnetic field // Biorheology.-1999.-Vol.36,N4.-P.339.
  • Ijichi T., Ejima J., Ohnishi Y., Maruyama T., Kaji Y., Kanaya S., Fujino T., Uyesaka N. Measurement of red blood cell filterability with the nickel mesh filter in normal subjects // Biorheology.-1996.-Vol.33,N4-5.-P.433.
  • Ikeda H., Koga Y., Oda T., Kuwano K., Nakayama H., Ueno T., Toshima H., Michael L.H., Entman M.L. Free oxygen radicals contribute to platelet aggregation and cyclic flow variations in stenosed and endothelium-injured canine coronary arteries // J Am Coll Cardiol.-1994.-Vol.24,N7.-P.1749-1756.
  • Ikeda Y., Handa M., Kawano K., Kamata T., Murata M., Arraki Y., Anbo H., Kawai Y., Watanabe K., Itagaki I., Sakai K., Ruggeri Z.M. The role of von Willebrand factor and fibrinogen in platelet aggregation under varying shear stress // J.Clin.Invest.-1991.-Vol.87.-P.1234-1240.
  • Ikemoto S., Maeda T., Tanaka H., Yokose T., Yamamoto J., Kawakami S., Isogai Y., Kanai K., Inami K., Otani I. Analysis of red blood cell deformability with a new type apparatus, DF-1 // Biorheology.-1996.-Vol.33,N4-5.-P.411.
  • Ilenriksen M., Hogan H.A. A parametric study of micropolar theory for application in biomechanics - fluid flow // 16th Int.Congr.Theor.and Appl.Mech.,Lygby,19-25 Aug.,1984.Abstr.Lect.-1984.-P.570.
  • Imafuku Y., Yoshida H., Greenfield S., Rabinovitch A. Automated measurement of erythrocyte sedimentation rate and its relation to red blood cell concentration and plasma proteins // Hematol.and Cell Ther.-1998.-Vol.40,N1.-P.27-32.
  • Imaizumi K., Shiga T. Effect of immunoglobulins and IgG-fragments on the human erythrocyte aggregation, studied by a rheoscope combined with image analyzer // Biorheology.-1983.-Vol.20,N5.-P.569-577.
  • Imbesi S.G., Kerber C.W. Why do ulcerated atherosclerotic carotid artery plaques embolize? A flow dynamics study // AJNR: Amer J Neuroradiol.-1998.-Vol.19,N4.-P.761-766.
  • Immich H. Impulsive motion of a suspension: effect of antisymmetric stresses and particle rotation // Int.J.Multiphase Flow.-1980.-Vol.6,N5.-P.441-471.
  • Ingebrigh I. Morphology changes affecting the RBC sedimentation velocity // Acta Med.Scand.-1971.-Vol.190,N1-2.-P.7-10.
  • Irimajiri A. Dielectric monitoring of rouleaux formation in human whole blood: a feasibility study // Biochim Biophys Acta.-1996.-Vol.1290,N3.-P.207-209.
  • Irimajiri A. Dielectric monitoring of rouleaux formation in whole blood // Biorheology.-1996.-Vol.33,N4-5.-P.431.
  • Irwin J.W., Alcaide D.C. Biological reactions interfering with flow through the microcirculation // Proc.4th Int.Congr.Rheol. Pt.4. Symp.on Biorheol.- New York etc.-1965.-P.425-430.
  • Ishida K., Hiraoka M., Nishimaru K. The effects of ethanol on blood rheology in eight healthy subjects // Biorheology.-1995.-Vol.32,N2-3.-P.323.
  • Ishiguro H., Rubinsky B. Morhpological microstructures during directional soliditication of suspensions of human red blood cells // Heat Transfer: Proc. 10th Int.Heat Transfer Conf. -Rugby.-1994.-P.43-48.
  • Ishii K., Hasimoto H. Lateral migration of a spherical particle in flows in a circular tube // J.Phys.Soc.Jap.-1980.-Vol.48,N6.-P.2144-2155.
  • Isogai Y., Ichiba K., Iida A., Nagaoka H. On the interrelation between blood viscosity and erythrocyte sedimentation rate // Proc.5th Rheol.Congr.Vol.2.-1970.-P.61-72.
  • Isogai Y., Iida A., Chikatsu I., Mochizuki K., Abe M. Dynamic viscoelasticity of blood during clotting in health and disease // Biorheology.-1973.-Vol.10,N3.-P.411-424.
  • Isogai Y., Iida A., Michizuki K., Abe M. Hemorheological studies on the pathogenesis of diabetic microangiopathy // Thromb.Res.-1976.-Vol.8,NSuppl.2.-P.17-24.
  • Isogai Y., Yokose T., Maeda T., Akiyama M., Onogi S., Masuda T., Iwamoto S., Ohmachi T. A new device, OP-rheometer system for analysis of viscosity and viscoelasticity of blood and clinical application // Clinical hemorheology.-1984.-Vol.4,N2/3.-P.275-283.
  • Isogai Y., Yokose T., Maeda T., Akiyama M., Onogi S., Masuda T., Ohmachi T., Iwamoto S. The OP-Rheometer system, a new device for analysis of viscosity and viscoelasticity of blood: description and clinical application // Biorheology.-1984.-Vol.Suppl.I.-P.35-41.
  • Isogai Y., Yokose T., Maeda T., Ikemoto S., Akiyama M. Filterability and shape of platelet: effects of anticoagulant and stimulant // Biomechanics in China,Japan, and U.S.A. Proceedings of An International Conference Held in Wuhan,China,in May,1983.-China:Science press.-1984.-P.283-284.
  • Ito M., Oonishi T., Sakashita K., Uyesaka N. The effect of nonionic iodinated contrast media on human red cell filterability and morphology // Biorheology.-1996.-Vol.33,N4-5.-P.429.
  • Itoh T., Chien S., Usami S. Deformability measurements on individual sickle cells usin a new system with pO2 and temperature control // Blood.-1992.-Vol.79,N8.-P.2141-2147.
  • Iwasaka M., Ueno S., Tsuda H. Effects of magnetic fields on fibrinolysis // J.Appl.Phys.-1994.-Vol.75,N10,pt.2b.-P.7162-7164.
  • Izumida Y. [Roles of plasma proteins and surface negative charge of erythrocytes in erythrocyte aggregation] // Nippon Seirigaku Zasshi.-1991.-Vol.53,N1.-P.1-12.
  • Izumida Y., Seiyama A., Maeda N. Erythrocyte aggregation: bridging by macromolecules and electrostatic repulsion by sialic acid // Biochim Biophys Acta.-1991.-Vol.1067,N2.-P.221-226.
  • Jaffrin M.Y. Innovative processes for membrane plasma separation // J.Membr.Sci.-1989.-Vol.44,N 1.-P.115-129.
  • Jaffrin M.Y., Gupta B.B., Cannon R.L., Ding L.H. Enhancement of plasma filtration in hollow fiber filters by pulsative blood flow // Life Support Syst.-1984.-Vol.2,Nsuppl.1.-P.207.
  • Jaffrin M.Y., Gupta B.B., Ding L.H., Garreau M. Effect of membrane dimensions and shear rate on plasmafiltration for hollow fibers // ASAIO Trans.-1984.-Vol.30.-P.401.
  • Jaffrin M.Y., Lenoir P., Malbrancq J.M., Vantard G. Modellisation des performances d'un hemofiltre aux pressions transmembranaires elevees // 4-eme Congr.Soc.biomec.,Lille,1979. Resumes commun. - Lille,.-1979.-P.62-63.
  • Jaffrin M.Y., Malbrancq J.M., Vantard G. Blood ultrafiltration: application to the design of hemofilters and plasmafilters // Biomechanics in China,Japan, and U.S.A. Proc.of an Int.Conf. Wuhan,China, May,1983. - Beijing.-1984.-P.127-144.
  • Jaffrin M.Y., Malbrancq J.M., Vantard G., Martin T., Faure A. Rheological aspects of plasmapheresis by filtration: application to plasmafilter design // Biorheology.-1983.-Vol.20,N4.-P.384.
  • Jaffrin M.Y., Malbrancq J.M., Vantard G., Martin T., Faure A. Rheological aspects of plasmaseparation by membrane // Clin.Hemorheol.-1985.-Vol.5,N3.-P.231-240.
  • Jamaluddin M.P., Krishnan L.K. A rate equation for blood platelet aggregation // fJ Theor Biol.-1987.-Vol.129,N2.-P.257-261.
  • Jan K.-M. Red cell interactions in macromolecular suspension // Biorheology.-1979.-Vol.16,N3.-P.137-148.
  • Jan K.-M. Roles of surface electrochemistry and macromolecular adsorption in heparin-induced red blood cell aggregation // Biorheology.-1986.-Vol.23,N2.-P.91-98.
  • Jan K.-M., Chien S. Role of surface electric charge in red blood cell interactions // J.Gen.Physiol.-1973.-Vol.61,N5.-P.638-654.
  • Jan K.-M., Chien S., Bigger J.T. Observation on blood viscosity changes after acute myocardial infarction // Circulation.-1975.-Vol.51,N6.-P.1079-1084.
  • Jansonius N.J., Zijlstra W.G. Various factors influencing rouleaux formation of erythrocytes, studied with the aid of syllectometry // Proc.Konikl.Nederl.Akad.Vetenschappen, Ser.C.-1965.-Vol.68,N2.-P.121-127.
  • Janssen F.J. A study of the absorption and scattering factors of light in whole blood // Med.Biol.Eng.-1972.-Vol.106,N2.-P.231-240.
  • Janssen F.J. The principle design and features of a new Hb-oximeter // Med.Biol.Eng.-1972.-Vol.10,N1.-P.9-22.
  • Janssen L.P.B.M. Thermodynamics of wall slip // J.Rheol.-1980.-Vol.24,N62.-P.927.
  • Janzen J., Brooks D.E. Do plasma proteins adsorb to red cells? // Clin.Hemorheol.-1989.-Vol.9,N5.-P.695-714.
  • Jaroszynski W., Wujtewicz M., Suchorzewska J., Kwiatkowski B. Determination of erythrocytes aggregation in the presence of hydroxyethylated starch (HAES). In vitro examination by the method of dielectric spectroscopy // Pol.J.Med.Phys.Eng.-1998.-Vol.4,N3.-P.111-121.
  • Jay A.W.L., Canham P.B. Sedimentation of single human red blood cells. Differences between normal and glutaraldehyde fixed cells // J.Cell Physiol.-1972.-Vol.80,N3.-P.367-372.
  • Jayavanth S., Singh M. Measurement of erythrocyte aggregation and deformability by computerised optical scattering techniques // Int.Conf.Biorheol.and School for Young Scientists.-Sofia.-2000.-P.13-17.
  • Jeffery G.B. The motion of ellipsoidal particles immersed in a viscous fluid // Proc.Roy.Soc. London.-1922.-Vol.102.-P.161-179.
  • Jen C.J., McIntire L.V. Characteristics of shear-induced aggregation in whole blood // J.Lab.Clin.Med.-1984.-Vol.103.-P.115-124.
  • Jen C.J., McIntire L.V. The gelation kinetics of platelet extracts // BBA.-1984.-Vol.801,N3.-P.410-415.
  • Jendrucko R.J., Lee J.S. The measuremens of hematocrit of blood flowing in glass capillaries by microphotometry // Microvasc.Res.-1973.-Vol.6,N3.-P.316-331.
  • Jenkins J.T. Static equilibrium configurations of a model red blood cell // J.Math.Biol.-1977.-Vol.4,N2.-P.149-169.
  • Jezequel P.H., Flaud P., Quemada D. Rheological properties and flow of concentrated disperse media. 2.Steady and unsteady flow analysis of heavy crude oil emulsions // Chem.Eng.Commun.-1985.-Vol.32,N1-5.-P.85-95.
  • Jirouskova M., Dyr J.E., Holada K., Suttnar J. Platelet adhesion to fibrinogen and fibrin under defined shear conditions // Brit.J.Haematol.-1996.-Vol.93,NSuppl.2.-P.177.
  • Johansson P.W., Jay A.W.L., Rowlands S. Electronic measurement of red cell flow in micropipettes // Canad.J.Physiol.and Pharmacol.-1977.-Vol.55,N1.-P.72-76.
  • Johnson C.C. Near infrared propagation in blood // J.Assoc.Advancem.Med.Instrumetat.-1970.-Vol.4,N1.-P.22-27.
  • Johnson C.C. Optical diffusion in blood // IEEE Trans.Biomed.Eng.-1970.-Vol.BME-17,N2.-P.129-133.
  • Johnson C.S., Sowter M.C., Stone P.C.W., Keidan A.J., Stuart J. Action of cetiedil citrate and oxpentifylline on deformability of sickle cells dehydrated by hyperosmolar stress // Clin.Hemorheol.-1988.-Vol.8,N5.-P.637-648.
  • Johnson M.F., Davis R.B. Effects of blood dilution on electrical impedance aggregometry // Thromb.Res.-1986.-Vol.42,N6.-P.855-857.
  • Johnson P.C. The importance of erythrocyte aggregation in vivo - the "pro" view // Biorheology.-1995.-Vol.32,N2-3.-P.105.
  • Johnson P.C., Bishop J.J., Popel S., Intaglietta M. Effect of red cell aggregation on the venous microcirculation // Biorheology.-1999.-Vol.36,N5-6.-P.457-460.
  • Johnson P.C., Popel A.S., Das B., Bishop J.J., Nance P., Intaglietta M. Effect of red cell aggregation on blood flow in vivo // Biorheology.-1999.-Vol.36,N1-2.-P.57.
  • Joiner C.H. Cation transport and volume regulation in sickle red blood cells // Amer.J.Physiol.-1993.-Vol.264,N2,pt.1.-P.C251-C270.
  • Joist J.H., Bauman J.A., Sutera S.P. Platelet aggregation and surface adhesion in pulsatile shear flow: Effect of red blood cells // Ann.Biomed.Eng.-1993.-Vol.21,Nsup1.-P.44.
  • Joist J.H., Bauman J.E., Sutera S.P. Platelet adhesion and aggregation in pulsatile shear flow: effects of red blood cells // Thromb Res.-1998.-Vol.92,N6 Suppl 2.-P.S47-S52.
  • Joist J.H., Speer M., Moritz M.W., Sutera S.P. Role of platelet-surface interaction in fluid shear stress-induced platelet aggregation // Clin.Hemorheol.-1983.-Vol.3,N2.-P.134.
  • Joly M., Lacombe C., Lelievre J.C. Tentative application of the tangent simple system method to the study of the viscoelastic behaviour of blood // Biorheology.-1983.-Vol.20.-P.663-676.
  • Joly M., Lacombe C., Lelievre J.C. Tentative application of the tangent simple system method to the study of the viscoelastic behaviour of blood // Clin.Hemorheol.-1983.-Vol.3,N2.-P.134.
  • Joly M., Lacombe C., Lelievre J.C. Tentative application of the tangent simple system method to the study of the viscoelastic behaviour of blood // Biorheology.-1983.-Vol.20,N5.-P.663-676.
  • Joly M., Lacombe C., Quemada D. Application of the transient flow rheology to the study of abnormal human bloods // Biorheology.-1981.-Vol.18.-P.445-452.
  • Jones A.L. On the flow of blood in a tube // Biorheology.-1966.-Vol.3,N4.-P.183-188.
  • Jones C.D., Kriegel D.L., Chuang A.H., Black J.B., McPherson J.C., McPherson J.C. Comparison of red cell deformability in polyvinyl pyrrolidone and Dexrtan // Ga J. Sci.-1994.-Vol.52,N1.-P.58.
  • Jones D.A., Smith C.W., Picker L.J., McIntire L.V. Neutrophil adhesion to 24-hour IL-1-stimulated endothelial cells under flow conditions // J.Immunol.-1996.-Vol.157,N2.-P.858-863.
  • Jones J.G. Haemorheology and cellular interactions // J.Roy.Soc.Med.-1993.-Vol.86,N7.-P.431.
  • Jones J.G., Adams R.A., Evans S.-A. Bulk filtration through micropore membranes for analysing blood cell rheology in clinical research // Clin.Hemorheology.-1994.-Vol.14,N2.-P.149-170.
  • Jones J.G., Evans S.-A. Haemorheology and disease // J.Roy.Soc.Med.-1994.-Vol.87,N8.-P.489-491.
  • Joshi A., Palsson B.O. Metabolic dynamics in the human red cell. Pt.1. A comprehensive kinetic model // J.Theor.Biol.-1989.-Vol.141,N4.-P.515-528.
  • Joshi A., Palsson B.O. Metabolic dynamics in the human red cell. Pt.2. Interactions with the environment // J.Theor.Biol.-1989.-Vol.141,N4.-P.529-545.
  • Jouve R., Juhan-Vague I., Arnaud C., Sambuc R., Billerey M., Mercier C., Serradimigni A. Erythrocyte deformability and acute phase reactant proteins in arteriosclerosis obliterans patients // Clin.Hemorheol.-1983.-Vol.3.-P.481-489.
  • Jovtchev S. Simultaneous determination of electrophoretic and aggregation behaviour of human platelets // Biorheology.-1999.-Vol.36,N1-2.-P.194-195.
  • Jovtchev S., Stoeff St. Human red blood cell aggregation in plasma and dextran containing suspending media: Comparison of three methods of measurement // Biorheology.-1999.-Vol.36,N1-2.-P.106-107.
  • Jovtchev S., Stoeff St., Dzhenev 1. Ее vivo and in vitro investigations on human red blood cell aggregation with the zeta sedimentation technique - role of cellular and suspending medium factors // Biorheology.-1999.-Vol.36,N1-2.-P.107.
  • Judkievicz L., Kasznicki M. Opadanie krwinek czerwonych - przydatnosc klinicza (90 lat odczynu Biernackiego) // Pol.tyg.lek.-1988.-Vol.43,N 34.-P.1102-1104.
  • Jung F. // Biorheology.-1983.-Vol.20,N6.
  • Jung F., Kiesewetter H., Mrowietz C., Leipnitz G., Braun B., Wappler M., Scheffler P., Wenzel E. Hemorrheological, micro- and macrocirculatory effects of naftidrofuryl in an acute study: a randomized, placebo-controlled, double-blind individual comparison // Int J Clin Pharmacol Ther Toxicol.-1987.-Vol.25,N9.-P.507-514.
  • Jung F., Koscielny J., Mrowietz C., Pindur G., Forster H., Schimetta W., Kiesewetter H., Wenzel E. Elimination kinetics of different hydroxyethyl starches and effects on blood fluidity // Clin.Hemorheology.-1994.-Vol.14,N2.-P.189-202.
  • Jung F., Lawall H., Kiesewetter H., Knoop U., Schonenberger H.J., Frank M., Hellstern P., Sitzmann F.C., Weinges K.F. [Spontaneous thrombocyte aggregation and blood sugar profile in children with diabetes mellitus type I treated with human and porcine insulin] // Dtsch Med Wochenschr.-1987.-Vol.112,N5.-P.170-174.
  • Jung F., Roggenkamp H.G., Koerber N., Schneider R., Kiesewetter H. The capillary tube plasma viscometer - an automatical instrument for measuring plasma viscosity // Biorheology.-1984,NSuppl.1.-P.115-117.
  • Jung F., Roggenkamp H.G., Koerber N., Schneider R., Kiesewetter H. The capillary tube plasma viscometer - an automatical device for measuring blood plasma viscosity // Biorheology.-1983.-Vol.20,N6.-P.818.
  • Jung F., Seegert A., Roggenkamp H.G., Mrowietz C., Nuttgens H.P., Kiesewetter H., Zeller H., Muller G. [Simultaneous recording of hematocrit, erythrocyte aggregation and disaggregation: methodology, quality control and reference ranges] // Biomed Tech (Berl).-1987.-Vol.32,N5.-P.117-125.
  • Jung F., Wappler M., Nuttgens H.P., Kiesewetter H., Wolf S., Muller G. [Method of video capillary microscopy: determination of geometric and dynamic measuring parameters] // Biomed Tech (Berl).-1987.-Vol.32,N9.-P.204-213.
  • Jung G., Schultz G. New possibilities for platelet shape change evaluation using the laser rheoaggregometer // Haemostasis.-1990.-Vol.20,N1.-P.37-47.
  • Kadota R.P., Bowie E.J.W., Emslander H.C., Fass D.N., Ilstrup D.M. The capillary thrombometer revisited // Haemostasis.-1987.-Vol.17,N1-2.-P.25-31.
  • Kage H.S., Engelhardt H., Sackmann E. A precision method to measure average viscoelastic parameters of erythrocyte populations // Biorheology.-1990.-Vol.27,N1.-P.67-78.
  • Kaibara M. Rheological analysis of blood coagulation and thrombus formation in vascular vessel model systems // Biorheology.-1996.-Vol.33,N1.-P.77.
  • Kaibara M. Rheological behaviors of bovine blood forming artificial rouleaux // Biorheology.-1983.-Vol.20,N5.-P.583-592.
  • Kaibara M. Rheology of blood coagulation // Biorheology.-1996.-Vol.33,N2.-P.101-117.
  • Kaibara M. Dynamic viscoelastic study of the formation of fibrin networks in fibrinogen-thrombin systems and plasma // Biorheology.-1975.-Vol.10,N1.-P.61-73.
  • Kaibara M., Date M., Fukada E. Dynamic evaluation of aggregation and agglutination of red blood cells // Biorheology.-1984.-Vol.21,N1.-P.43-47.
  • Kaibara M., Date M., Fukada E. Dynamic evaluation of aggregation and agglutination of red blood cells // Biorheology.-1983.-Vol.20,N6.-P.818.
  • Kaibara M., Fukada E. Transient viscoelastic behavior of blood // Clin.Hemorheol.-1982.-Vol.2.-P.7-11.
  • Kaibara M., Fukada E. Dynamic viscoelastic study for the structure of fibrin networks in the clots of blood and plasma // Biorheology.-1970.-Vol.6,N4.-P.329-339.
  • Kaibara M., Fukada E. Effect of temperature on dynamic visscoelasticitu during the clotting reaction of fibrin // BBA.-1977.-Vol.499,N3.-P.352-359.
  • Kaibara M., Kato N., Kawagoishi H., Iwata H. Rheological study of adhesion strength of endothelial cells to substrate and antithrombogenicity of the surface that cells detached by shear stress // Biorheology.-1996.-Vol.33,N4-5.-P.425.
  • Kaibara Makoto Rheological analysis of blood coagulation and thrombus formation in vascular vessel model systems // Biorheology.-1996.-Vol.33,N1.-P.77.
  • Kaimal M.R. Propagation characteristics in distensible tubes containing a visco-elastic fluid // J.Biomech.-1981.-Vol.14,N1.-P.47-53.
  • Kakishita E., Higuchi M., Suchiro A., Nagai K. A new index for collagen induced platelet aggregation // Thromb.Res.-1989.-Vol.56,N3.-P.465.
  • Kallio T., Alanen A. A new ultrasonic technique for quantifying blood echogenicity // Invest.radiol.-1988.-Vol.23.-P.832-835.
  • Kallio T., Alanen A., Kormano M. The effect of radiographic contrast media on ultrasonically detectable red blood cell aggregation in vitro // Invest Radiol.-1989.-Vol.24,N10.-P.789-793.
  • Kallner A., Engervall P., Bjorkholm M. Kinetic measurement of the erythrocyte sedimentation rate // Upsala J.Med.Sci.-1994.-Vol.99,N2.-P.179-186.
  • Kalnins A. Biconcave equilibrium states of a red blood cell in osmotic swelling // 1973 Biomech.Symp.Properties of Biol.Fluids and Solids: Mech.of Tissues and Organs. - New York.-1973.-P.1-2.
  • Kameneva M.V. Effect of haematocrit on the development and consequences of some haemodynamic disorders // Contemp.Problems of Biomech. - Moscow; Boca Raton,Fla.-1990.-P.111-126.
  • Kameneva M.V., Antaki J.F., Borovetz H.S., Griffith B.P., Butler K.C., Yeleswarapu K.K., Watach M.J., Kormos R.L. Mechanisms of red blood cell trauma in assisted circulation. Rheologic similarities of red blood cell transformations due to natural aging and mechanical stress // ASAIO Journal.-1995.-Vol.41,N3.-P.M457-M460.
  • Kameneva M.V., Antaki J.F., Butler K.C., Watach M.J., Kormos R.L., Griffith B.P., Borovetz H.S. A sheep model for the study of hemorheology with assisted circulation. Effect of an axial flow blood pump // ASAIO J.-1994.-Vol.40,N4.-P.959-963.
  • Kameneva M.V., Antaki J.F., Konishi H., Whalen J.J., Kerrigan J.P., Watach M.J., Kormos R.L., Griffith B.P., Borovetz H.S. Effect of perfluorochemical emulsion on blood trauma and hemorheology // ASAIO Journal.-1994.-Vol.40.-P.M576-M579.
  • Kameneva M.V., Antaki J.F., Watach M.J., Borovetz H.S., Kormos R.L. Heparin effect on red blood cell aggregation // Biorheology.-1994.-Vol.31,N3.-P.297-304.
  • Kameneva M.V., Antaki J.F., Yeleswarapu K.K., Watach M.J., Griffith B.P., Borovetz H.S. Plasma protective effect on red blood cells exposed to mechanical stress // ASAIO J.-1997.-Vol.43,N5.-P.M571-M575.
  • Kameneva M.V., Borovetz H.S., Antaki J.F. On mechanisms of the effect of perfluorochemical emulsion on blood trauma and hemorheology // Biorheology.-1995.-Vol.32,N2-3.-P.327.
  • Kameneva M.V., Borovetz H.S., Antaki J.F., Litwak P., Federspiel W.J., Kormos R.L., Griffith B.P. Effect of perfluorochemical emulsion on hemorheology and shear induced blood trauma. Possible mechanisms and future applications // Oxigen Transport to Tissue. XVIII.- New York.-1997.-P.383-390.
  • Kameneva M.V., Parfenov A.S., Chirkova L.D., Baskova I.P. Piyavit - a complex preparation from the medicinal leech improves blood rheology and decreases platelet aggregation // Clin.Hemorheol.-1995.-Vol.15,N4.-P.633-640.
  • Kan H.C., Udaykumar H.S., Shyy W., Tran-Son-Tay R. Numerical analysis of the deformation of an adherent drop under shear flow // Trans ASME: J Biomech Eng.-1999.-Vol.121,N2.-P.160-169.
  • Kanai H., Pujii M., Niwa M., Sakamoto K. Physical properties of flowing blood // Proc.7th Annu.Conf.IEEE Eng.Med.and Biol.Soc. Vol.1. - New York.-1985.-P.511-514.
  • Kanai H., Sakamoto K. Impedance of blood: the effects of the orientation of red blood cells // Sci.et techn.biom\'ed.-1976,N1.-P.CI-1.
  • Kanakaraj P., Singh M. Influence of myocardial infarction on membrane structure and hemorheological characteristics of erythrocytes // Clin.Hemorheol.-1989.-Vol.9,N2.-P.257-272.
  • Kaneda Y. Bulk stress of a periodic suspension of solid particles of arbitrary shape // Fluid Dyn.Res.-1991.-Vol.7,N3/4.-P.165-179.
  • Kang C.K., Eringen A.C. The effect of microstructure on the rheological properties of blood // Bull.Math.Biol.-1976.-Vol.38,N2.-P.135-159.
  • Kapadvanjwala M., Jy W., Dewaniee M.K. Effect of fluid shear on thrombus formation and platelet fragmentation in hemodialyzer // Ann.Biomed.Eng.-1993.-Vol.21,Nsuppl.1.-P.44.
  • Kapany N.S., Silbertrust N. Fiber optics spectrophotometer for in vivo oximetry // Nature.-1964.-Vol.204,N4954.-P.138-142.
  • Kaperonis A.A., Chien S. Blood rheology and red cell metabolism in the menstrual cycle in normal and heterozygous thalassemic women // Clin.Hemorheol.-1988.-Vol.8,N5.-P.751-762.
  • Kar S., Mehta J., Sharma K.R. Investigation on non newtonian behavior of normal and leukemic blood // Proc. Annu. Int. Conf. IEEE Eng. Med. and Biol. Soc., Orlando, Fla, Oct. 31- Nov. 3, 1991. Vol. 13. Pr 5/5. - New York (N.Y.).-1991.-P.1993-1994.
  • Karabetsos E., Aggelopoulos E.G., Koutsouris D. An ultrasound doppler technique for in vitro estimation of red blood cell aggregation via a specific hydraulic system simulating blood flow // Biorheology.-1995.-Vol.32,N2-3.-P.359-360.
  • Karabetsos E., Papaodysseus C., Koutsouris D. A new method for measuring red blood cell aggregation using pattern recognition techniques on backscattered ultrasound Doppler signals // Clin Hemorheol Microcirc.-1999.-Vol.20,N2.-P.63-75.
  • Karandikar S.S., Bapat R.D., Puniyani R.R. Haemorheology in diabetic foot // J.Postgrad.Med.-1994.-Vol.40,N1.-P.21-22.
  • Karino T. The effects of disturbed flows on thrombus formation // Biorheology.-1996.-Vol.33,N1.-P.77.
  • Karino T., Eguchi Y. A new viscometry based on the free fall of solid spherical particles in quiescent fluids // Biorheology.-1996.-Vol.33,N4-5.-P.410.
  • Karino T., Goldsmith H.L. Adhesion of human platelets to collagen on the wall distal to a stenosis // Microvasc.Res.-1979.-Vol.17,N3, pt.1.-P.238-262.
  • Karino T., Goldsmith H.L. Adhesion of human platelets to collagen on the wall distal to a stenosis // Microvasc.Res.-1978.-Vol.15,N2.-P.266.
  • Karino T., Goldsmith H.L. Aggregation of human platelets in an annular vortex distal to a tubular expansion // Microvasc.Res.-1979.-Vol.17,N3,pt.1.-P.217-237.
  • Karino T., Goldsmith H.L. Blood cells in an annular vortex // Microcirculation.Vol.1.- New York.-1976.-P.109-110.
  • Karino T., Goldsmith H.L. Disturbed flow in models of branching vessels // Trans.ASAIO.-1980.-Vol.26.-P.500-506.
  • Karino T., Goldsmith H.L. Flow behaviour of blood cells and rigid spheres in an annular vortex // Phil.Trans.Roy.Soc.B.-1977.-Vol.279,N967.-P.413-445.
  • Karino T., Goldsmith H.L. Particle flow behavior in models of branching vessels. II. Effects of branching angle and diameter ratio on flow patterns // Biorheology.-1985.-Vol.22,N2.-P.87-104.
  • Karino T., Goldsmith H.L. Role of blood cell-wall interactions in thrombogenesis and atherogenesis: a microrheological study // Biorheology.-1984.-Vol.21,N4.-P.587-601.
  • Karino T., Goldsmith H.L., Motomiya M., Mabuchi S., Sohara Y. Flow patterns in vessels of simple and complex geometries // Ann N Y Acad Sci.-1987.-Vol.516.-P.422-441.
  • Karino T., Kinomoto H. Particle flow behavior in the human circle of Willis // Microvasc.Res.-1985.-Vol.29,N2.-P.226.
  • Karino T., Kwong H.H.M., Goldsmith H.L. Particle flow behaviour in models of branching vessels.I. Vortices in 90ш T-junctions // Biorheology.-1979.-Vol.16,N3.-P.231-248.
  • Karino T., Motomiya M. Fiow visualization in isolated transparent natural blood vessels // Biorheology.-1983.-Vol.20,N2.-P.119-127.
  • Karino T., Motomiya M. Flow through a venous valve and its implication for thrombus formation // Thromb Res.-1984.-Vol.36,N3.-P.245-257.
  • Karino T., Motomiya M. Flow visualization in isolated transparent natural blood vessels // Biorheology.-1983.-Vol.20,N2.-P.119-127.
  • Karino T., Motomiya M. Flow visualization in transparent blood vessels // Flow Visualiz.III.Proc.3rd Int.Symp.,Ann Arbor,Mich.,Sept.609,1983. - Washington etc.-1985.-P.843-847.
  • Karino T., Motomiya M. Vortices in the pockets of a venous valve // Microvasc.Res.-1981.-Vol.21,N2.-P.247.
  • Karino T., Motomiya M., Goldsmith H.L. Flow patterns at the major T-junctions of the dog descending aorta // J Biomech.-1990.-Vol.23,N6.-P.537-548.
  • Kasser U., Heimburg P. Quality control in blood viscoelastometry // Clin.Hemorheol.-1988.-Vol.8,N1.-P.93-104.
  • Kasser U., Heimburg P., Walitza E. Viscoelasticity of whole blood and its dependence on laboratory parameters // Clin.Hemorheol.-1989.-Vol.9,N2.-P.307-312.
  • Kasser U., Kroemer H., Altrock G., Heimburg P. Reference ranges of viscoelasticity of human blood // Biorheology.-1988.-Vol.25,N5.-P.727-742.
  • Kassiamides E., Gerrard J.H. The calculation of entrance lenght in physiological flow // Med. Biol. Eng.-1975.-P.558-560.
  • Katchalsky A., Danon D., Nevo A., de Vries A. Interactions of basic polyelectrolytes with red blood cell. II.Agglutination of red blood cell polymeric bases // BBA.-1959.-Vol.33,N1.-P.120-138.
  • Katchalsky A., Kedem O., Klibansky C., de Vries A. Rheological considerations of the haemolysisbng red blood cell // Flow Properties of Blood and Other Biol.Systems.- Oxford etc.-1960.-P.155-169.
  • Kato A., Arakawa M., Kondo T. Flow properties of hemolysate-loaded liposome suspensions // Biorheology.-1983.-Vol.20,N5.-P.593-601.
  • Kaul D.K. Microrheologic correlates of sickle cell adhesion to the vascular endothelium // Ann.Biomed.Eng.-1996.-Vol.24,NSuppl.1.-P.33.
  • Kaul D.K. Molecular basis od sickle red cell-endothelium interaction in the microcirculation // Biorheology.-1999.-Vol.36,N1-2.-P.60.
  • Kaul D.K., Xue H. Rate of deoxygenation and rheologic behavior of blood in sickle cell anemia // Blood.-1991.-Vol.77,N6.-P.1353-1361.
  • Kaulla K.N. Quantitative methods in recording blood coagulation: theoretical and practical aspects // Progr.in Hamatol.Vol.3.- New York.-1962.-P.218-243.
  • Kawahata S., Ohshima H., Muramatsu N., Kondo T. Charge distribution in the surface region of human erythrocytes as estimated from electrophoretic mobility data // J.Coll.and Interface Sci.-1990.-Vol.138,N1.-P.182-186.
  • Kawai H., Fukada E., Ibe T., Shono H. A new capillary viscometer for measuring the viscosity of small amounts of blood // Proc.4th Int.Congr.Rheol. Pt.4. Symp.on Biorheol.- New York etc.-1965.-P.281-297.
  • Kawai T., Annich G.M., Meinhardt J.P., Ichiba S., Brant D.O., Bartlett R.H. Effect of blood flow rate on thrombogenesis in a rabbit extracorporeal circulation model // ASAIO J.-1999.-Vol.45,N5.-P.478-481.
  • Kawakami S., Kaibara M., Kawamoto Y., Yamanaka K. Rheological approach to the analysis of blood coagulation in endothelial cell-coated tubes: activation of the intrinsic reaction on the erythrocyte surface // Biorheology.-1995.-Vol.32,N5.-P.521-536.
  • Kawamoto Y., Kaibara M. Viscoelasticity of fibrinogen solution and of blood during coagulation studied by a new damped oscillation rheometer // Biorheology.-1988.-Vol.25,N1/2.-P.289-296.
  • Kawano K., Ikeda Y., Handa M., Kamata T., Anbo H., Araki Y., Kawai Y., Watanabe K., Itagaki I., Kawakami K., Fukuyama M., Sakai K. Enhancing effect by heparin on shear-induced platelet aggregation // Semin.Thromb.Haemost.-1990.-Vol.16,NSuppl..-P.60-65.
  • Keidan A.J., Noguchi C.T., Player M., Chalder S.M., Stuart J. Erythrocyte heterogeneity in sickle cell disease: effect of deoxygenation on intracellular polymer formation and rheology of sub-populations // Brit.J.Haematol.-1989.-Vol.72,N2.-P.254-259.
  • Keller K.H. Effect of fluid shear on mass transport in flowing blood // Fed.Proc.-1971.-Vol.30,N5.-P.1591-1599.
  • Keller K.H., Friedlander S.K. The steady-state transport of oxygen through hemoglobin solutions // J Gen Physiol.-1966.-Vol.49,N4.-P.663-679.
  • Keller K.H., Lauffenburger D. The effect of flow channel thickness on surface-induced blood damage // J.Bioeng.-1978.-Vol.2,N3-4.-P.205-217.
  • Keller K.H., Yum S.I. Erythrocyte-tube wall interactions in laminar flow of blood suspensions // Trans Am Soc Artif Intern Organs.-1970.-Vol.16.-P.42-47.
  • Kellogg R.M. Rheological effects during centrifugal plasma production // Clin.Hemorheol.-1985.-Vol.5,N1.-P.35-43.
  • Kenner T. Physiological measurement in circulation research // Med.Prog.Technol.-1982.-Vol.9.-P.67-74.
  • Kenner T. The measurement of blood density and its meaning // Basic Res.Cardiol.-1989.-Vol.84,N 2.-P.111-124.
  • Kenner T., Leopold H., Hinghofer-Szalkay H. The continuous high-precision measurement of the density of flowing blood // Pflugers Arch.-1977.-Vol.370,N1.-P.25-29.
  • Kenner T., Moser M., Mohl W. Arteriovenous difference of the blood density in the coronary circulation // Trans.ASME: J.Biomech.Eng.-1985.-Vol.107,N1.-P.34-40.
  • Kent P., Williams G., Kester R.C. The effetc of acute hand vibration on red cell filterability // Clin.Hemorheology.-1994.-Vol.14,N2.-P.245-254.
  • Kermack W.O., McKendrick A.G., Ponder E. The stability of suspensions.III. The velocities of sedimentation and of cataphoresis of suspensions in a viscous fluid // Proc.Roy.Soc.-1928.-Vol.49.-P.170-197.
  • Kernick D., Jay W.L., Rowlands S. Erythrocyte settling // Canad.J.Physiol.and Pharmacol.-1974.-Vol. 52,N6.-P.1167-1177.
  • Kernick D., Jay W.L., Rowlands S., Skibo L. Experiments on rouleau formation // Canad.J.Physiol.and Pharmacol.-1973.-Vol.51,N9.-P.690-699.
  • Keshavarzi M., Kline K.A. A theoretical model of oscillatory blood flow in arteries // Proc. Indian Acad. Sci. A.-1974.-Vol.79,N5.-P.236-255.
  • Khairullina A.Ja., Naumenko E.K. The determination of derivative hemoglobins concentration in a whole blood at miltiple scattering light // SPIE Proceeding.-1993.-Vol.2082.-P.205-211.
  • Khairullina A.Ya. The information possibility of autocorrelation functions of temporary fluctuations of backscattered radiation by erythrocytes suspensions // SPIE Proceeding.-1994.-Vol.2326.
  • Khairullina A.Ya., Oleinik T.V., Korolevich A.N. Evalution of laser therapy efficiency by the change in the hemoglobin status and erythrocyte aggregation in whole blood at multiple scattering of light // SPIE Proceeding.-1993.-Vol.1883.-P.124-129.
  • Khairullina A.Ya., Oleinik T.V., Korolevich A.N. Optical methods for studying laser effects on human blood erythrocytes // SPIE Proceeding.-1992.-Vol.1981.-P.38-44.
  • Khairullina A.Ya., Oleinik T.V., Yusupova L.B., Prigoun N.P. Pecularities of spectroscopic information on whole blood at atherosclerosis // SPIE Proceeding.-1994.-Vol.2325.-P.406-413.
  • Khaled S., Brun J.F.. Cassanas G., Bardet L., Mercier J., Prefaut C. Zinc gluconate and acetate in vitro decrease red cell aggregability // Biorheology.-1999.-Vol.36,N1-2.-P.107-108.
  • Khan M.M., Puniyani R.R., Huilgol N.G., Hussain M.A., Ranade G.G. Hemorheological profiles in cancer patients // Clin. Hemorheology.-1995.-Vol.15,N1.-P.37-44.
  • Khanin M.A., Leytin V.L., Popov A.F. A mathematical model of the kinetics of platelets and plasma hemostasis system interaction // Thromb.Res.-1991.-Vol.64.-P.659-666.
  • Khanin M.A., Semenov V.V. A mathematical model of the kinetics of blood coagulation // J.Theor.Biol.-1989.-Vol.136,N2.-P.127-134.
  • Khodabandelhou Т.. Le Deve C., Vimeux M. Sensitivity of the cell transit analyser (СТА) to detect abnormal red blood cell deformability: Application in diabetic patients // Biorheology.-1999.-Vol.36,N1-2.-P.195-196.
  • Kholeif I.A., Weymann H.D. Motion of a single red blood cell in plane shear flow // Biorheology.-1974.-Vol.11,N5.-P.337-348.
  • Kiani M.F., Hudetz A.G. A semi-empirical model of apparent blood viscosity as a function of vessel diameter and discharge hematocrit // Biorheology.-1991.-Vol.28,N1-2.-P.65-73.
  • Kiesewetter H., Erdlenbruch K., Koscielny J., Jung F., Pindur G., Wenzel E. Efficacy of hypervolumetric hemodilution with HES200/0.5% versus ringer lactate in patients with asystemic vertigo // Clin.Hemorheol.-1995.-Vol.15,N4.-P.601-612.
  • Kiesewetter H., Jung F., Gerhards M., Roggenkamp H.G. Rheological effect of metformin on the blood of patients with dietetically controlled type-IIb diabetes // Clin.Hemorheol.-1987.-Vol.7,N6.-P.781-792.
  • Kiesewetter H., Jung F., Witt R., Kotitschke G., Winkelhog C., Nuttgens H.P., Gerhards M., Roebruck P., Waterloh E. [Prevalence of peripheral arterial occlusive disease, risk factors and rheologic profile: results of a preliminary examination in the Aachen study] // Vasa Suppl.-1987.-Vol.20.-P.266-269.
  • Kiesewetter H., Mrowietz C., Lazar H., Jung F. The hematocrit-electrolite-concentration-apparatus (HECA) // Biorheology.-1984,NSuppl.1.-P.155-157.
  • Kiesewetter H., Mrowietz C., Lazar H., Jung F. The hematocrit-erythrocyte-disaggregation apparatus // Biorheology.-1983.-Vol.20,N6.-P.819.
  • Kiesewetter H., Mrowietz C., Lazar H., Jung F. The hematocrit-erythrocyte-disaggregation-apparatus (HEDA) // Biorheology.-1984,NSuppl.1.-P.213-215.
  • Kiesewetter H., Radtke H., Jung F., Schmid-Schonbein H., Wortberg G. Determination of yield point: methods and review // Biorheology.-1982.-Vol.19.-P.363-374.
  • Kiesewetter H., Radtke H., Roggenkamp H.G., Jung F. Assignment of hemorheological instruments in the angiologic ambulance: first results and experiences // Clin.Hemorheol.-1983.-Vol.3,N6.-P.555.
  • Kiesewetter H., Radtke H., Roggenkamp H.G., Jung F., Blume J., Schneider R. Assignment of hemorheological instruments in the angiologic ambulance: first results and experiences // Biorheology.-1984,NSuppl.1.-P.71-74.
  • Kikuchi Y. Effect of leukocytes and platelets on blood flow through a parallel array of microchannels: micro- and macroflow relation and rheological measures of leukocyte and platelet activities // Microvasc.Res.-1995.-Vol.50,N2.-P.288-300.
  • Kikuchi Y., Fujieda S., Monma M., Suzuki K., Mori M. Development of microchannel array flow analyzer (MC-FAN) for measurement of blood rheological factors // Biorheology.-1996.-Vol.33,N4-5.-P.411.
  • Kikuchi Y., Koyama T. Cholesterol induced impairment in red cell deformability and its improvement by vitamin E // Clin.Hemorheol.-1983.-Vol.3.-P.375-382.
  • Kikuchi Y., Koyama T. Effects of Na+ and K+ on protein adsorption on red blood cell surface // Amer.J.Physiol.-1984.-Vol.247,N5.-P.H748-H753.
  • Kikuchi Y., Koyama T. Red blood cell deformability and protein adsorption on red blood cell surface // Amer.J.Physiol.-1984.-Vol.247,N5.-P.H739-H747.
  • Kikuchi Y., Koyama T., Ohshima N., Oda K. Red blood cell deformability and venous blood PO2 in diabetics // Clin.Hemorheol.-1988.-Vol.8,N2.-P.171-182.
  • Kilpatrick D., Lavercombe P.S., Webber S.D. Viscosity reduction and flow across artificial in vitro stenoses // Clin.Hemorheol.-1988.-Vol.8,N1.-P.67-72.
  • Kim S.Y., Miller I.F., Sigel B., Consigny P.M., Justin J. Ultrasonic evaluation of erythrocyte aggregation dynamics // Biorheology.-1989.-Vol.26,N4.-P.723-736.
  • Kim S.Y., Miller I.F., Sigel B., Consigny P.M., Justin J. Ultrasonic evaluation of erythrocyte aggregation dynamics // Biorheology.-1989.-Vol.26,N4.-P.723-736.
  • Kimzey S.L. A review of hematology studies associated with space flight // Biorheology.-1979.-Vol.16,N1-2.-P.13-21.
  • King J., Kennedy K., Rimmer A. An automated method for recording the Westergren erythrocyte sedimentation rate // J.Clin.Pathol.-1981.-Vol.34,N4.-P.449-452.
  • King R.G., Chien S., Usami S., Copley A.L. Biorheological methods employing the Weissenberg Rheogoniometer // Biorheology.-1984,NSuppl.1.-P.23-34.
  • Kinlough-Rathbone R.L., Packham M.A., Mustard J.F. Vessel injury, platelet adherence, and platelet survival // Arteriosclerosis.-1983.-Vol.3.-P.529-546.
  • Kinomoto H., Karino T. Flow patterns in the human circle of Willis // Biorheology.-1983.-Vol.20,N4.-P.416.
  • Kinorita J., Kazuhiko L., Tsong T. Voltage-induced pore formation and haemolysis of human erythrocytes // Biochim.et biophys.acta.-1977.-Vol.471,N2.-P.227-242.
  • Kipp J.E., Abdel-Moneim M.T., The effect of a high molecular weight additive on a time dependent laminar flow of blood // Proc.24th Annu.Conf.Eng.Med.Biol.-Washington.-1971.-P.170.
  • Kippenhan J.S., Nagel J.H., Eckstein E.C. Estimation and analysis of platelet-analogue concentration profiles in blood flow // Phys.Med.Biol.-1988.-Vol.33,suppl.,N1.-P.351.
  • Kirby G.S., Church T.S., Beecherl E.E., Barren O.A., Smith J.L., Terkildsen M.W. Rapid response microviscosimeter // Biorheology.-1998.-Vol.35,N1.-P.89-102.
  • Kirwan A.D. Constitutive equation for a fluid containing nonrigid structures // Phys.Fluids.-1968.-Vol.11,N7.-P.1440-1446.
  • Kistler E.L. On polarized waves uin biomedical fluid mechanics // Proc.39th ACEMB.-Washington, DC.-1986.-P.300.
  • Kitagawa Y., Van Eeden S.F., Redenbach D.M., Daya M., Walker B.A.M., Klut M.E., Wiggs B.R., Hogg J.C. Effect of mechanical deformation on structure and function of polymorphonuclear leukocytes // J.Appl.Physiol.-1997.-Vol.82,N5.-P.1397-1405.
  • Kizilova N.N. Effect of radial motion of erythrocytes on their sedimentation in a tube in an external magnetic field. //Fluid Dynamics . - 1991. - v.26,N5. - P.737 - 744.
  • Kizilova N.N. Stability of erythrocyte sedimentation in a constant magnetic field. //Fluid Dynamics. - 1989. - v.24,N6. - P.878-881.
  • Kizilova N.N. Erythrocyte aggregation and sedimentation in a non-uniform force field. //Biorheology. - 2005. Ц vol.42,N1-2. Ц –.160-165.
  • Kizilova N.N., Regirer S.A. Magnetohydrodynamic effects during blood movement. //Biofizika. - 1991. - Vol.36,N1. - P.147-153.
  • Kline K.A. Fluid microstructure strain in shear flow // Acta mech.-1975.-Vol.21,N3.-P.209-219.
  • Kline K.A. Predictions from polar fluid theory which are independent of spin boundary condition // Trans.Soc.Rheol.-1975.-Vol.19,N1.-P.139-145.
  • Kline K.A. Structured fluid theory: preliminary notions of relative force and the distribution of particles in the flow of a suspension // 1975 Biomech.Symp. - New York.-1975.-P.43-44.
  • Kline K.A. On a liquid drop model of blood rheology // Biorheology.-1972.-Vol.9,N4.-P.287-299.
  • Kline K.A., Allen S.J. Concentration effects in oscillatory blood flow // Biorheology.-1969.-Vol.6,N2.-P.99-108.
  • Kline K.A., Allen S.J. Deformation of red cells in shear fields // Pap.ASME, 1971, N WA/BHF-11.-1971, 9 p.
  • Kline K.A., Allen S.J. The relationship of pressure gradient to blood velocity based on a continuum theory of blood // J.Biomech.-1969.-Vol.2,N3.-P.313-318.
  • Kline K.A., Allen S.J., DeSilva C.N. A continuum approach to blood flow // Biorheology.-1968.-Vol.5,N2.-P.111-118.
  • Kline K.A., Allen S.J., Keshavarzi M. Dissipative effects due to hydrodynamic interactions between red cells in a theory of pulse transmission and oscillatory flow in arteries // Biorheology.-1972.-Vol.9,N1.-P.1-22.
  • Kline K.A., Schmid-Schonbein H. Estimates of membrane strain shear hemolysis of osmotically inflated near spherical red cells // Biorheology.-1974.-Vol.11,N5.-P.361-374.
  • Klose H.J., Gosen J.V., Ellinghaus K., Schmid-Schonbein H. Coagulation of platelet rich plasma (RPR) and platelet aggregation (P.A.) in viscometric flow // Bibl.Anat.-1973.-Vol.11.-P.98-103.
  • Klose H.J., Volger E., Brechtelsbauer H., Heinich L., Schmid-Schonbein H. Microrheology and light transmission of blood. I.The photometric effects of red cell aggregation and red cell orientation // Pflugers Arch.-1972.-Vol.333,N1.-P.123-139.
  • Knauf P.A. Anion transport in erythrocytes // Physiol. Membrane Disorders.- New York; London.-1986.-P.191-220.
  • Knight K., Rampling M.W., Sirs J.A. Erythrocyte flexibility in blood from patients with diabetes mellitus // Biorheology.-1978.-Vol.15,N1.-P.51-52.
  • Knisely M., Warner L., Harding F. Ante-mortem settling // Angiology.-1960.-Vol.11,N6,pt.2.-P.535-538.
  • Knisely M.H. Some categories of blood rheology // Flow Properties of Blood and Other Biol.Systems.- Oxford etc.-1960.-P.423-429.
  • Knisely M.N. Sludged blood // Handbook of Physiol. Sect.2. Circulation. Vol.3. - Washington, DC.-1965.-P.2249-2292.
  • Kobuchi Y., Ito T., Ogiwara A. Model for rouleaux pattern formation of red blood cells // J.Theor.Biol.-1988.-Vol.130.-P.129-145.
  • Koch D.L., Shaqfeh E.S.G. Screening in sedimenting suspensions // J.Fluid Mech.-1991.-Vol.224.-P.275-303.
  • Koch D.L., Shaqfeh E.S.G. The instability of a dispersion of sedimenting spheroids // J.Fluid Mech.-1989.-Vol.209.-P.521-542.
  • Kodabandehiou Т., Le Deve C., Guillet R., Boynard M. Evaluation of red blood cell (RBC) aggregation by an ultrasonic interferometry method "echo cell" // Biorheology.-1999.-Vol.36,N1-2.-P.195.
  • Koenig W., Sund M., Filipiak B., Doering A., Loewel H., Ernst E. Plasma viscosityand the risk of coronary heart disease: results from the MONICA-Augsburg cohort study< 1984 to 1992 // Arteriosclerosis, Thrombosis and Vasc.Res.-1998.-Vol.18,N5.-P.768-772.
  • Kogawa H., Yabushita N., Satoh M., Kageyama K. [In vitro effects of free fatty acids on water content and osmotic fragility of erythrocytes in rabbits] // C R Seances Soc Biol Fil.-1997.-Vol.191,N2.-P.267-272.
  • Koleski J.F., Eckstein E.C. Near wall concentration profiles of 1.0 and 2.5 microns beads during flow of blood suspensions // ASAIO Trans.-1991.-Vol.37,N1.-P.9-12.
  • Koltringer P., Eber O., Lind P., Klima G., Ribitsch V. Hypervolemic short-time hemodilution: longtime observation of hemorheological parameters // Clin.Hemorheol.-1988.-Vol.8,N5.-P.763-772.
  • Koltringer P., Langsteger W., Eber O. Dose-dependent hemorheological effects and microcirculatory modifications following intravenous administration of Ginkgo biloba special extract EGb 761 // Clin.Hemorheol.-1995.-Vol.15,N4.-P.649-656.
  • Kon K., Kon H. Study of the effect of varying hematocrit on free deformation and orientation of erythrocytes in flow // Biorheology.-1985.-Vol.22,N4.-P.323-333.
  • Kon K., Maeda N., Shiga T. Erythrocyte deformation in shear flow: influences of internal viscosity, membrane stiffness, and hematocrit // Blood.-1987.-Vol.69,N3.-P.727-734.
  • Kon K., Murakami J., Takaoka K., Shiga T. Oscillatory deformation of human erythrocytes in sinusoidally modulated shear flow // Biorheology.-1988.-Vol.25,N1/2.-P.49-56.
  • Kon K., O'Bryan E.R., Kon H. Effect of the presence of hardened erythrocytes on deformation-orientation characteristics of normal erythrocytes in shear flow studied by the spin label method // Biorheology.-1985.-Vol.22,N2.-P.105-117.
  • Koncha F., Bustos M.C. Modification of the Kynch theory of sedimentation // AIChE Journal.-1987.-Vol.33,N2.-P.312-315.
  • Kondo S., Oka S. Flow of blood in capillary // J.Soc.Mater.Sci.Japan.-1967.-Vol.16,N166.-P.523-524.
  • Kononenko V.L. Dielectro-deformational spectroscopy of erythrocytes // Proc.SPIE.-1994.-Vol.2136.-P.163-174.
  • Kononenko V.L. Erythrocyte diagnostics by flicker spectroscopy and dielectro-deformation technique-1993.-Vol.1884.-P.346-355.
  • Kononenko V.L., Shimkus J.K. Transverse concentrational profiles in dilute erythrocytes suspension flows in narrow channels measured by integral Doppler anemometer // Laser Applications in Life Sciences. Pt.1. - Washington.-1991.-P.381-383.
  • Konstantopoulos K., Chow T.W., Turner N.A., Hellums J.D., Moake J.L. Shear stress-induced binding of Von Willebrand factor to platelets // Biorheology.-1997.-Vol.34,N1.-P.57-71.
  • Koppensteiner R., Jung M., Minar E., Ehringer H. Hemorheology in systemic ultrahigh-dose thrombolytic therapy with streptokinase and urokinase // Thromb.Res.-1989.-Vol.56,N2.-P.277-288.
  • Korbut R., Gryglewski R.J. Nitric oxide from polymorphonuclear leukocytes modulates red blood cell deformability in vitro // Eur.J.Pharmacol.-1993.-Vol.234,N1.-P.17-22.
  • Korbut R., et al. The effect of prostacyclin and nitric oxide on deformability of red blood cells in septic shock in rats // J Physiol Pharmacol.-1996.-Vol.47,N4.-P.591-599.
  • Kornowski R., Meltzer R.S., Chernine A., Vered Z., Battler A. Does external ultrasound accelerate thrombosis?: Results from a rabbit model // Circulation.-1994.-Vol.89,N1.-P.339-344.
  • Korolevich A.N., Khairullina A.Y. Polarization characteristics of light scattering by erythrocytes under mnormal and pathological state // 5th Int.Conf.Laser Applications in Life Sci. SPIE Proc.Ser.Vol.2370.-1994.-P.375-378.
  • Korzynska A. The mathematical backgrounds and software used in the investigation of the movement of leukocytes // Biocybern and Biomed. Eng.-1992.-Vol.12,N1-4.-P.87-99.
  • Koshavarzi M., Kline K.A. A theoretical model of oscillatory blood flow in arteries // Proc.Indian Acad.Sci.A.-1974.-Vol.79,N5.-P.236-255.
  • Kostrewa S., Paarmann Ch., Goemann W., Heise H.M. Multivariate determination of hematocrit in whole blood by attenuated total reflection infrared spectroscopy // Proc. 11th Intern. Conf. on Fourier transform Specrtoscopy. - New-York.-1998.
  • Kounov N.B., Petrov V.G. Determination of erythrocyte aggregation // Math.Biosci.-1999.-Vol.157,N1-2.-P.345-356.
  • Kousouris D., Delatour-Hanss E., Hanss M. Physico-chemical factors of erythrocyte deformability // Biorheology.-1985.-Vol.22,N2.-P.119-132.
  • Koutsouris D., Beuzard Y., Hanss M., Galacteros F., Loukopoulos D. Discrimination of hemoglobin disorders by studying the erythrocyte deformability // Clin.Hemorheol.-1985.-Vol.5,N4.-P.343-351.
  • Koutsouris D., Boynard M., Delatour-Hanss E., Gattegno L. Rheological properties of desialynated erythrocytes studied by ultrasound backscattering and filtration // Clin.Hemorheol.-1988.-Vol.8,N5.-P.695-706.
  • Koutsouris D., Guillet R., Lelievre J.C., Boynard M., Guillemin M.T., Bertholom P., Wenby R.B., Beuzard Y., Meiselman H.J. Individual red blood cell transit times during flow through cylindrical micropores // Clin.Hemorheol.-1988.-Vol.8,N3/4.-P.453-460.
  • Koutsouris D., Guillet R., Lelievre J.C., Guillemin M.T., Bertholom P., Beuzard Y., Boynard M. Determination of erythrocyte transit times through micropores.I - Basic operational principles // Biorheology.-1988.-Vol.25,N5.-P.763-772.
  • Koutsouris D., Guillet R., Rhoda M.D., Guillemin M.T., Bertholom P., Galacteros F., Delatour-Hanss E., Beuzard Y. Altered rheological properties of RBCs in hemoglobinopathies // Clin.Hemorheol.-1985.-Vol.5,N5.-P.555-560.
  • Koutsouris D., Guillet R., Wenby R.B., Meiselman H.J. Determination of erythrocyte transit times through micropores.II - Influence of experimental and physicochemical factors // Biorheology.-1988.-Vol.25,N5.-P.773-790.
  • Koutsouris D., Guillet R., Wenby R.B., Meiselman H.J. Determination of erythrocyte transit times through micropores. 2.Influence of experimental and physicochemical factors // Biorheology.-1989.-Vol.26,N5.-P.881-898.
  • Koutsouris D., Hanss M., Skalak R. Determination of erythrocytes transit times through a 5 mu "nuclepore" filter // Biorheology.-1983.-Vol.20,N6.-P.779-787.
  • Kovacs A.G., Makary A., Peto J., Steinmetz G. Decreased platelet aggregation during pregnancy correlates with gestational age // Gynecol Obstet Invest.-1993.-Vol.35,N3.-P.146-148.
  • Kovacs I.B., Sowemimo-Coker S.O., Kirby J.D., Turner P. Altered behaviour of erythrocytes in scleroderma // Clin Sci.-1983.-Vol.65,N5.-P.515-519.
  • Kowal P. Hemorheology in cerebral ischemia // Neurol.and Neurochir.Pol.-1996.-Vol.30,NSuppl.2.-P.7-16.
  • Kowal P. Is red cell deformability a low shear stress dependent phenomenon in vascular dementia? // Biorheology.-1999.-Vol.36,N1-2.-P.82.
  • Kowalczynska H.M. Dynamic adhesion of erythrocytes to glass. Comparative study of the influence of serum in low concentrations // Arch Immunol Ther Exp (Warsz).-1977.-Vol.25,N3.-P.397-408.
  • Kowalczynska H.M. Influence of flow velocity and cell concentration on dynamic adhesion of erythrocytes to glass surface // J Cell Physiol.-1977.-Vol.91,N3.-P.417-428.
  • Koyama T. Shear rate and orientation of erythrocytes in pulmonary microvessels of bullfrogs // Biorheology.-1985.-Vol.22,N5.-P.379-384.
  • Koyama T., Nitta J., Asakura T., Ushizaka T., Aizu H., Kikuchi Y. A grating laser microscope for measurements of blood flow velocity in microvessels // Biorheology.-1984.-Vol.Suppl.I..-P.131-134.
  • Koyari Y., Yoshizawa A., Takano A., Sugiwara M. Studies on the starting flow and inlet flow in a channel and a pipe // AIAA Paper.-1981,N1221, 10 p.
  • Kozlov M.M., Lerche D., Meier W. RBC membrane instability for large pipette deformation. A theoretical approach // Biorheology.-1988.-Vol.25,N6.-P.843-856.
  • Kraiem A., Craescu C.T., Galacteros F., Martin-Caburi J., Domenget C., Garel M.-C., Beuzard Y. Filterability of sickle cells as a function of pO: role of physico-chemical factors // Biorheology.-1989.-Vol.26,N4.-P.771-784.
  • Kramer K., Elam J.O., Saxton G.A., Elam W.N. Influence of oxygen saturation erythrocyte concentration and optical depth on red and near infrared light transmitance of whole blood // Amer.J.Physiol.-1951.-Vol.165,N2.-P.229-246.
  • Kratzer M., Baldauf W. Interferometric measurements of the distance between glass wall and adhering platelets and red blood cells at different strength of adhesion // Pflugers Arch.-1978.-Vol.373,NSuppl22.-P.R22.
  • Kratzer M.A.A., Bellucci S., Caen J.P. Detection of abnormal platelet functions with an in vitro model of primary haemostasis // Haemostasis.-1985.-Vol.15,N6.-P.363-370.
  • Kratzer M.A.A., Born G.V.R. Simulation of primary haemostasis in vitro // Haemostasis.-1985.-Vol.15,N6.-P.357-362.
  • Krause K.H., Campbell K.P., Welsh M.J., Lew D.P. The calcium signal and neutrophil activation // Clin.Biochem.-1990.-Vol.23,N2.-P.159-166.
  • Krause K.H., Pittet D., Volpe P., Pozzan T., Meldolesi J., Lew D.P. // Cell Calcium.-1989.-Vol.10,N5.-P.351-361.
  • Kreid D.K., Goldstein R.J. Measurement of velocity profiles in simulated blood by the laser-Doppler technique // Flow. Its Measurement and Control in Sci.and Industry. Vol.1, pt.3.- Pittsburgh.-1974.-P.1377-1387.
  • Kriegel D.L., Jones C.D., Runner R.R., Black J.B., Chuang A.H., McPherson J.C., McPherson J.C. "Glass effect" on red blood cells (RBCs) may be affected by charge as well as pH // Ga J. Sci.-1994.-Vol.52,N1.-P.65.
  • Krishnakumar C.K., Rovick A.A., Lavan Z. The effect of pressure pulsations on the Fahraeus-Lindquist effect // Microvasc.Res.-1978.-Vol.15,N2.-P.245-249.
  • Krishnakumar C.K., Rovick A.A., Lavan Z. The effect of pressure pulsations on time mean flow rate // Microvasc.Res.-1976.-Vol.11.-P.41-49.
  • Krogstad D.J., Sutera S.P., Boylan C.W., Gluzman I.Y., Qian Z., Rao P.R. Intraerythrocytic parasites and red cell deformability: Plasmodium berghei and Babesia microti // Blood Cells.-1991.-Vol.17,N1.-P.209-228.
  • Krogstad D.J., Sutera S.P., Marvel J.S., Gluzman I.Y., Boylan C.W., Colca J.R., Williamson J.R., Schlesinger P.H. Calcium and the malaria parasite: parasite maturation and the loss of red cell deformability // Blood Cells.-1991.-Vol.17,N1.-P.229.
  • Kron R.E., Litt M. Low shear capillary viscometer for fresh blood // Proc.27th ACEMB. - Philadelphia, Pa.-1974.-P.61.
  • Kron S., Seybert J., Litt M., Kron R.E. Design of a transient capillary clinical blood viscometer // Biorheology.-1983.-Vol.20,N4.-P.444.
  • Krotkiewski M., Belboul A., Palm S., Brzezinska Z., Liu B., Roberts D. The effect of sod-active plant substance (Polbax(R)) on oxygen free radical (OFR) generation and blood cell rheology // Clin.Hemorheol.-1995.-Vol.15,N4.-P.641-648.
  • Kubair V.G. Angmented rates of oxygen transfer to blood under the influense of imposed magnetic field // Rheology.Vol.3.New-York-London,1980..-P.483-488.
  • Kuchar N.R., Ostrach S. Flow in the etrance regions of circular tubes // Biomed. Fluid Mech. Sympos. ASME.-1966.-P.45-69.
  • Kuchar N.R., Ostrach S. Unsteady entrance flows in elastic tubes with application to the vascular systems // AIAA Journal.-1971.-Vol.9.-P.1520-1526.
  • Kuczera K., Gao J., Tidor B., Karplus M. Free energy of sickling: a simulation analysis // Proc.Nat.Acad.Sci.USA.-1990.-Vol.87,N21.-P.8481-8485.
  • Kugelmess I.N. Suspension stability of blood // Biochem.of Blood in Health and Dis.- Springfield.-1959.-P.18-19.
  • Kulkarni M.V., Puniyani R.R. Study of hemorheological parameters in maturity onset diabetic cases // Clin.Hemorheology.-1994.-Vol.14,N2.-P.271-278.
  • Kumagai T., Muraoka M. On the motion of spheres in a fluid at low Reynolds numbers (two equal-sized spheres moving along their center lines) // JSME Int.J.Ser.II.-1989.-Vol.32,N3.-P.309-316.
  • Kumaravel M., Singh M. Aggregation and deformability of erythrocytes in leprosy // Indian J. Exp. Biol.-1995.-Vol.33,N6.-P.408-415.
  • Kumaravel M., Singh M. Sequential analysis of aggregation process of erythrocytes of human, buffalo, cow, horse, goat and rabbit // Clin.Hemorheol.-1995.-Vol.15,N3.-P.291-304.
  • Kumazaki S., Oonishi T., Sakashita K., Ishihara T., Suematsu N. Impairment of red cell filterability during acute exacerbation of bronchial asthma // Biorheology.-1996.-Vol.33,N4-5.-P.430.
  • Kunsch R., Bull K., Moufti M., Richter T., Schabitz J. Hamorheologische Befunde bei Patienten mit ischamischer Herzkrankheit // Folia Haematol.(DDR).-1989.-Vol.116,N5.-P.803-805.
  • Kunz A.L., Coulter N.A. Non-Newtonian behavior of blood in oscillatory flow // Biophys.J.-1976.-Vol.7,N1.-P.25-36.
  • Kuo C.-D., Bai J.-J., Chahg I.-T., Wahg J.-H., Chien S. Continuous monitoring of erythrocyte sedimentation process: A new possible mechanism of erythrosyte sedimentation // Trans.ASME: J.Biomech.Eng.-1988.-Vol.110,N4.-P.392-395.
  • Kuo C.-D., Bai J.-J., Chien S. A fractal model of erythrocyte sedimentation // Biorheology.-1994.-Vol.31.-P.77-89.
  • Kuo C.-D., Bai J.-J., Chien S. A model of erythrocyte sedimentation based on population dynamics and including plasms trapping // 1st World Congr.Biomech.Vol.2. - La Jolla, Ca.-1990.-P.189.
  • Kuo C.-D., Bai J.-J., Chien S. Erythrocyte sedimentation realizable in term of population dynamics // Biorheology.-1989.-Vol.26.-P.1003-1010.
  • Kuo C.D., Bai J.J., Chien S. A fractal model for erythrocyte sedimentation // Biorheology.-1994.-Vol.31,N1.-P.77-89.
  • Kuo I.Y., Shung K.K. High frequency ultrasonic backscatter from erythrocyte suspension // IEEE Trans Biomed Eng.-1994.-Vol.41,N1.-P.29-34.
  • Kuramoto K., Matsushita S., et al. Effect of hematocrit and viscosity on coronary circulation and myocardial oxygen utilization // Japan Circ.J.-1980.-Vol.44,N443.-P.448.
  • Kuroda K., Fujino M. On the cause of the increase in light transparency of erythrocyte suspension in flow // Biorheology.-1963.-Vol.1,N3.-P.167-182.
  • Kuroda K., Turnio M. On the cause of the increase in light transparency of erythrocyte suspension in flow // Biorheology.-1963.-Vol.1,N3.-P.167-182.
  • Kuru O., Bor-Kucukatay M., Gunduz F., Yalcin O., Senturk U.K., Baskurt O.K. Higher red blood cell aggregation in regularly exercising, old rats // Int.Conf.Biorheol.and School for Young Scientists.-Sofia.-2000.-P.147-151.
  • Kwong D., Tees D.F., Goldsmith H.L. Kinetics and locus of failure of receptor-ligand-mediated adhesion between latex spheres. II. Protein-protein bond // Biophys J.-1996.-Vol.71,N2.-P.1115-1122.
  • Kynch J. A theory of sedimentation // Trans. Faraday Soc.-1952.-Vol.48,N2.-P.166-176.
  • LaCelle P.L. Alterations by leukocytes of erythrocyte flow in microchannels // Blood Cells.-1986.-Vol.12,N1.-P.179-189.
  • LaCelle P.L. Erythrocyte deformability and its significance to survival in the microcirculation // Biorheology.-1970.-Vol.6,N4.-P.278.
  • LaCelle P.L. Pathologic erythrocytes in the capillary microcirculation // Blood Cells.-1975.-Vol.1,N2.-P.269-284.
  • LaCelle P.L., Evans E.A., Hochmuth R.M. Erythrocyte membrane elasticity, fragmentation and lysis // Blood Cells.-1977.-Vol.3,N2.-P.335-350.
  • Lacombe C., Bucherer C., Ladjouzi J., Lelievre J.C. Competitive role between fibrinogen and albumin on thixotropy of red cell suspensions // Biorheology.-1988.-Vol.25,N1/2.-P.349-354.
  • Lacombe C., Lelievre J., Quemada D., Fabre G., Davelose D., Leterrier F. Relationship between steady state viscosity and erythrocyte shape changes during blood storage // Biorheology.-1983.-Vol.20,N4.-P.385.
  • Lagatiuta K.J., Sharma V.S., Nicoli D.F., Cothari B.H. Diffusion coefficients of hemoglobin by intensity fluctuation spectroscopy // Biol. J.-1981.-Vol.33,N1.-P.63-80.
  • Lai C.-S., Narasimhan C., Yin J.-J. Evidence that the two free sulfhydryl groups of plasma fibronectin are in different local environments. Saturation-recovery electron spin resonance study // Biophys.J.-1989.-Vol.56,N2.-P.395.
  • Lamson T.C., Rosenberg G., Geselowitz D.B., Deutsch S., Stinebring D.R., Frangos J.A., Tarbell J.M. Relative blood damage in the three phases of a prosthetic heart valve flow cycle // ASAIO J.-1993.-Vol.39,N3.-P.M626-M633.
  • Landgraf H., Ehrly A.M. Plasma viscosity: clinical and pathophysiological significance and methods of determination // Klin.Wochenschr.-1984.-Vol.62.-P.947.
  • Landini S., Coli U., Lucatello S., Fracasso A., Morachiello P., Rignetto F., Scanferia F., Bessato G. Spontaneous plasma-exchange by gravity // Int.J.Artif.Organs.-1984.-Vol.3.-P.137.
  • Lang W., Wolf H.U., Zander R. A sensitive continuous and discontinuous photometric determination of oxygen, carbon dioxide, and carbon monoxide in gases and fluids // Anal Biochem.-1979.-Vol.92,N2.-P.255-264.
  • Lange Y., Steck T.L. Mechanism of red blood cell acanthocytosis and echinocytosis in vivo // J.Membr.Biol.-1984.-Vol.77,N2.-P.153-159.
  • Lapotko D. Laser calorimetry in blood diagnostic and cytometry // Transfer Processes in Biomed.Problems.- Minsk.-1995.-P.114-115.
  • Larcan A., Laprevote M.C., Lambert H. Cyclical shock with hyperglobulinemia // Bibl.anat.-1975.-Vol.13.-P.343-346.
  • Larcan A., Stoltz J.F. Microcirculation et hemorheologie.- Paris: Masson-1970.
  • Larcan A., Stoltz J.F., Stoltz M. La reproduction experimentale du phenomene de sludge // Biorheology.-1970.-Vol.6,N4.-P.279.
  • Larsson H., Valdemarsson S., Hedner P., Odeberg H. Blood viscosity in hyperthyroidism: significance of erythrocyte changes and hematocrit // Clin.Hemorheol.-1988.-Vol.8,N2.-P.259-268.
  • Laskowski L.K., Wronski S. On the pulsatile flow of micropolar fluid // Arch. Mech.-1976.-Vol.28,N4.-P.615-624.
  • Lastoria S., Thomazini I.A., Cury P.R., Maffei F.H. Platelet activation in experimental arterial thrombosis // Braz J Med Biol Res.-1987.-Vol.20,N5.-P.611-613.
  • Latimer P. Transmittance: An index to shape changes of blood platelets // Appl. Opt.-1975.-Vol.120,N3.-P.2324-2326.
  • Lauffenburger D., Keller K.H. Effects of leukocyte random motility and chemotaxis in tissue inflammatory response // J Theor Biol.-1979.-Vol.81,N3.-P.475-503.
  • Laun H.M., Bung R., Hess S., Loose W., Hess O., Hahn K., Hadicke E., Hingmann R., Schmidt F., Lindner P. Rheological and small-angle neutron scattering investigation of shear-induced particle structures of concentrated polymer dispersions submitted to plane Poiseuille flow // J.Rheol.-1992.-Vol.36.-P.743-787.
  • Law D.H.-S., MacTaggrt R.S., Nandakumar K., Masliyah J.H. Settling behaviour of heavy and buoyant particles from a suspension in an inclined channel // J.Fluid Mech.-1988.-Vol.187.-P.301-318.
  • Lawrence M.B., McIntire L.V., Eskin S.G. Effect of flow on polymorphonuclear leukocyte/endothelial cell adhesion // Blood.-1987.-Vol.70,N5.-P.1284-1290.
  • Lawrence M.B., McIntire L.V., Eskin S.G. Role of flow in leukocyte adhesion to vascular endothelium // Proc.39th ACEMB.- Washington, DC.-1986.-P.237.
  • Lawson A.J., Gong J.K., Case K.R., Gersten D.M., Bosmann H.B. Recurrent decreases of erythrocyte electrophoretic mobility in rats exposed to 1.0 R whole-body x-radiation // Cell Biophys.-1982.-Vol.4,N1.-P.47-61.
  • Le Deve C., Khodabandehiou Т., Vimeux M. Features of hemorheological and microcirculatory profiles in chronic venous insufficiency // Biorheology.-1999.-Vol.36,N1-2.-P.135-136.
  • Le Devehat C., Boisseau M., Vimeux M., Bondoux G., Bertrand A. Hemorheological factors in the pathophysiology of venous disease // Clin.Hemorheol.-1989.-Vol.9,N5.-P.861-870.
  • Le Devehat C., Khodabandehlou T., Dougny M. Etudes des parametres hemorheologiques dans l'obesite isolee // Diabete et metab.-1992.-Vol.18,N1.-P.43-47.
  • Le Devehat C., Vimeux M., Bondoux G. Hemorheological effects of oral troxerutin treatment versus placebo in venous insufficiency of the lower limbs // Clin.Hemorheol.-1989.-Vol.9,N4.-P.543-552.
  • Le Devehat C., Vimeux M., Bondoux G., Bertrand A. Hemorheological factors in the pathophysiology of venous disease // Clin.Hemorheol.-1989.-Vol.9,N2.-P.237-246.
  • Le Devehat C., Vimeux M., Bondoux G., Bertrand A. Red blood cell aggregation and disaggregation in diabetes mellitus // Clin.Hemorheol.-1989.-Vol.9,N5.-P.845-854.
  • Le Devehat C., Vimeux M., Bondoux G., Khodabandehlou T. Red blood cell aggregation in diabetes mellitus // Int.Angiology.-1990.-Vol.9.-P.11-15.
  • Le M.S., Howell J.A. Alternative model for ultrafiltration // Chem.Eng.Res.and Des.-1984.-Vol.62,N6.-P.373-380.
  • Le Quan Sang K.H., Levenson J., Del Pino M., Simon A., Devynck M.-A. In vivo shear flow and erythrocyte membrane fluidity in hypertensive patients // Brit.J.Clin.Pharmacol.-1993.-Vol.36,N5.-P.437-443.
  • Leal L.G. On the effective conductivity of a dilute suspension of spherical drops in the limit of low particle Peclet number // Chem.Eng.Commun.-1973.-Vol.1.-P.21-31.
  • Lechner P., Walzl M., Walzl B. the impact of H.E.L.P. on haemorheology in peripheral arterial disease // Clin.Hemorheology.-1994.-Vol.14,N2.-P.181-188.
  • Lee A.J., Fowkes F.G., Rattray A., Rumley A., Lowe G.D. Haemostatic and rheological factors in intermittent claudication: the influence of smoking and extent of arterial disease // Brit.J.Haematol.-1996.-Vol.92,N1.-P.226-230.
  • Lee D., Chiu Y.L. Platelet adhesion onto the wall of a flow chamber with an obstacle // Biorheol.-1997.-Vol.34,N2.-P.111-126.
  • Lee V.S., Tarassenko L. An optical method for the determination of platelet count in platelet samples contaminated with red blood cells // J. Biochem. and Biophys. Meth.-1992.-Vol.24,N3-4.-P.215-223.
  • Lehmann K., Groscurth P., Vollenweider I., von Felten A., Rhyner K. Morphologic alterations of blood cells in the impedance aggregometer // Blood Cells.-1985.-Vol.11,N2.-P.325-336.
  • Leibler S., Maggs A.C. Simulation of shape changes and adhesion phenomena in an elastic model of erythrocytes // Proc.Nat.Acad.Sci.USA.-1990.-Vol.87,N16.-P.6433-6435.
  • Leichberg S., Weinbaum S., Preffer R. The slow viscous motion of finite coaxial clusters of spheres in unbounded Poiseulle flow and its application to rouleaux formation // 1975 Biomech.Symp. - New York.-1975.-P.45-48.
  • Leichtberg S., Weinbaum S., Pfeffer R. A new hydrodynamic interaction mechanism for the formation of rouleaux // Biorheology.-1976.-Vol.13,N3-B.-P.165-179.
  • Leif R.C., Vinograd J. The distribution of buoyant density of human erythrocytes in bovine albumin solutions // Proc.Nat.Acad.Sci.USA.-1964.-Vol.51.-P.520-528.
  • Leighton D., Acrivos A. Measurement of shear-induced self-diffusion in concentrated suspensions of spheres // J.Fluid Mech.-1987.-Vol.177.-P.109-131.
  • Leighton D., Acrivos A. The shear-induced migration of particles in concentrated suspensions // J.Fluid Mech.-1987.-Vol.181.-P.415-439.
  • Leighton D., Acrivos A. Viscous resuspension // Chem.Eng.Sci.-1986.-Vol.41,N6.-P.1377-1384.
  • Leitmanova A. Changes in the shape of human erythrocytes under the influence of a ststic magnetic field // Stud.Biophys.-1976.-Vol.60,N1.-P.73-82.
  • Leitmanova A., Stosser R., Glaser R. Changes in shape of human erythrosyte under thr influense of constant homogeneous magnetic fields // Acta biol.et medica germanica.-1977.-Vol.36.-P.931-934.
  • Lelievre J.C., Lacombe C., Quemada D. Caracterisation rheologique du sang humain // J.Biophys. et med. nucl.-1982.-Vol.6,N3.-P.117-120.
  • Lennie S.E., Lowe G.D.O., Barbenel J.C., Forbes C.D., Foulds W.S. Filterability of white blood cell subpopulations, separated by an improved method // Clin.Hemorheol.-1987.-Vol.7,N6.-P.811-816.
  • Leonard E.F. The shear rate filtration rate relationship of membranes for plasmapheresis // Plasmapheresis: Therapeutic Applications and New Techniques. - New York.-1983.-P.135-143.
  • Leopold H., Hinghofer-Szalkay H., Kenner T., Holzer H. Rapid determination of the sedimentation rate of blood free from the influence of gravity // Biomed.Techn.-1978.-Vol.23,N5.-P.99-103.
  • Lerche D. Electrostatic fixed charge distribution in the RBC-glycocalyx and their influence upon the total free interaction energy // Biorheology.-1984.-Vol.21,N4.-P.477-492.
  • Lerche D. Report and abstracts of Fourth National Symposium on Hemorheology // Biorheology.-1988.-Vol.25,N5.-P.803-816.
  • Lerche D. Spontaneous aggregation of washed human erythrocytes in isotonic media of reduced ionic strength. Conclusions about the spatial arrangement of the N-terminal part of the glycophorins // Biorheology.-1982.-Vol.19,N5.-P.587-598.
  • Lerche D., Baumler H. Moderate heat treatment of only red blood cells (RBC) slows down the rate of RBC-RBC aggregation in plasma // Biorheology.-1984.-Vol.21,N3.-P.393-403.
  • Lerche D., Baumler H., Kucera W., Meier W., Paulitschke M. Die Fliesseigenschaften von Blut und ihre Charakterisierung mittels hamorheologischer Methoden // Folia Haematol.(DDR).-1989.-Vol.116,N5.-P.631-652.
  • Lerche D., Baumler H., Kucera W., Mejer W., Paulitschke M. Flow properties of blood and hemorheological methods of quantification // Phys.Characteriz.Biol.Cells.- Berlin.-1991.-P.189-207.
  • Lerche D., Bilsing R. Separation of red blood cells at high volume concentration under low centrifugal accelerations // Biorheology.-1988.-Vol.25,N1/2.-P.245-252.
  • Lerche D., Duncker N., Dschietzig T. Sedimenation and packing of suspension at high volume concentration followed by a new centrifuge analyzer // Biorheology.-1989.-Vol.26,N3.-P.650.
  • Lerche D., Flieger J. Theoretical and experimental studies of centrifugal cell separation (batch hemapheresis) // Int.J.Artif.Organs.-1989.-Vol.12,N9.-P.576.
  • Lerche D., Flieger J., Dschietzing Th. Sedimentation and packing of red blood cells at low centrifugal accelerations. Theory and experiments // 1st World Congr.Biomech.Vol.1. - La Jolla, Ca.-1990.-P.49.
  • Lerche D., Glaser R. Investigations of artificial aggregation of washed human erythrocytes caused by decreased pH and reduced ionic strength // Acta Biol Med Ger.-1980.-Vol.39,N8-9.-P.973-978.
  • Lerche D., Klaus H., Kunter U. Study of aggregation of human red blood cells // Stud.Biophys.-1976.-Vol.56,N1.-P.21-25.
  • Sivakova N.N. Effect of a magnetic field on the sedimentation of weakly magnetizable aggregating particles. //Izv.Akad.Nauk SSSR. Mekh.Zhidk.Gaza. - 1987. - No.5. - P.77-85.