In Vitro Measurement and Modeling of Platelet Adhesion on VWF-Coated Surfaces in Channel Flow.

Qi, Qin M; Dunne, Eimear; Oglesby, Irene; Schoen, Ingmar; Ricco, Antonio J; Kenny, Dermot; Shaqfeh, Eric S G

In Vitro Measurement and Modeling of Platelet Adhesion on VWF-Coated Surfaces in Channel Flow.

Qi, Qin M; Dunne, Eimear; Oglesby, Irene; Schoen, Ingmar; Ricco, Antonio J; Kenny, Dermot; Shaqfeh, Eric S G.

Affiliation

Qi QM; Chemical Engineering, Stanford University, Stanford, California. Electronic address: mqi@g.harvard.edu.
Dunne E; Irish Centre for Vascular Biology and Molecular and Cellular Therapeutics, Royal College of Surgeons in Ireland, Dublin, Ireland.
Oglesby I; Irish Centre for Vascular Biology and Molecular and Cellular Therapeutics, Royal College of Surgeons in Ireland, Dublin, Ireland.
Schoen I; Irish Centre for Vascular Biology and Molecular and Cellular Therapeutics, Royal College of Surgeons in Ireland, Dublin, Ireland.
Ricco AJ; Electrical Engineering, Stanford University, Stanford, California.
Kenny D; Irish Centre for Vascular Biology and Molecular and Cellular Therapeutics, Royal College of Surgeons in Ireland, Dublin, Ireland.
Shaqfeh ESG; Chemical Engineering, Stanford University, Stanford, California; Mechanical Engineering, Stanford University, Stanford, California; Institute for Computational and Mathmatical Engineering, Stanford University, Stanford, California.

Biophys J ; 116(6): 1136-1151, 2019 03 19.

Article in En | MEDLINE | ID: mdl-30824114

Subject(s)

Models, Biological; Platelet Adhesiveness; von Willebrand Factor/metabolism; Hematocrit; Humans; Hydrodynamics; Kinetics; Shear Strength; Surface Properties

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Full text: 1 Database: MEDLINE Main subject: Von Willebrand Factor / Platelet Adhesiveness / Models, Biological Type of study: Prognostic_studies Limits: Humans Language: En Journal: Biophys J Year: 2019 Type: Article

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