Kinetics of protein deposition and replacement from a shear flow

Kinetics of plasma protein deposition and replacement from a shear flow of full strength and diluted blood plasma onto prewetted glass were studied both numerically and experimentally. A band of fibrinogen moving down the adsorbing surface was predicted and observed. The band was shown to define the...

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Published in	AIChE journal Vol. 44; no. 2; pp. 233 - 244
Main Authors	Mandrusov, E., Yang, J. D., Pfeiffer, N., Vroman, L., Puszkin, E., Leonard, E. F.
Format	Journal Article
Language	English
Published	Hoboken Wiley Subscription Services, Inc., A Wiley Company 01.02.1998 Wiley Subscription Services American Institute of Chemical Engineers
Subjects	Adhesion Adsorption Biological and medical sciences Deposition Glass Mathematical models Medical sciences Natural convection Proteins Radiotherapy. Instrumental treatment. Physiotherapy. Reeducation. Rehabilitation, orthophony, crenotherapy. Diet therapy and various other treatments (general aspects) Reaction kinetics Shear flow Technology. Biomaterials. Equipments. Material. Instrumentation Vascular disease Human Plasma Shear flow Cardiovascular disease Biomaterial Kinetics Thrombosis Protein Biomedical engineering
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Abstract	Kinetics of plasma protein deposition and replacement from a shear flow of full strength and diluted blood plasma onto prewetted glass were studied both numerically and experimentally. A band of fibrinogen moving down the adsorbing surface was predicted and observed. The band was shown to define the region where blood platelets subsequently adhered to the surface. Since platelet adhesion is a fundamental component of thrombosis, this observation is potentially pertinent to the long‐sought mechanism that determines where thrombus forms during shear flow of blood through artificial devices. The discrepancies between the mathematical model and experimental observations are explained by the presence of the natural convection, arising from density differences between plasma and the wetting fluids.
AbstractList	Kinetics of plasma protein deposition and replacement from a shear flow of full strength and diluted blood plasma onto prewetted glass were studied both numerically and experimentally. A band of fibrinogen moving down the adsorbing surface was predicted and observed. The band was shown to define the region where blood platelets subsequently adhered to the surface. Since platelet adhesion is a fundamental component of thrombosis, this observation is potentially pertinent to the long-sought mechanism that determines where thrombus forms during shear flow of blood through artificial devices. The discrepancies between the mathematical model and experimental observations are explained by the presence of the natural convection, arising from density differences between plasma and the wetting fluids. Abstract Kinetics of plasma protein deposition and replacement from a shear flow of full strength and diluted blood plasma onto prewetted glass were studied both numerically and experimentally. A band of fibrinogen moving down the adsorbing surface was predicted and observed. The band was shown to define the region where blood platelets subsequently adhered to the surface. Since platelet adhesion is a fundamental component of thrombosis, this observation is potentially pertinent to the long‐sought mechanism that determines where thrombus forms during shear flow of blood through artificial devices. The discrepancies between the mathematical model and experimental observations are explained by the presence of the natural convection, arising from density differences between plasma and the wetting fluids.
Author	Mandrusov, E. Puszkin, E. Vroman, L. Yang, J. D. Leonard, E. F. Pfeiffer, N.
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Keywords	Vascular disease Human Plasma Shear flow Cardiovascular disease Biomaterial Kinetics Thrombosis Protein Biomedical engineering
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Snippet	Kinetics of plasma protein deposition and replacement from a shear flow of full strength and diluted blood plasma onto prewetted glass were studied both... Abstract Kinetics of plasma protein deposition and replacement from a shear flow of full strength and diluted blood plasma onto prewetted glass were studied...
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SubjectTerms	Adhesion Adsorption Biological and medical sciences Deposition Glass Mathematical models Medical sciences Natural convection Proteins Radiotherapy. Instrumental treatment. Physiotherapy. Reeducation. Rehabilitation, orthophony, crenotherapy. Diet therapy and various other treatments (general aspects) Reaction kinetics Shear flow Technology. Biomaterials. Equipments. Material. Instrumentation
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Title	Kinetics of protein deposition and replacement from a shear flow
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