The Molecular Basis of Fibrin Clot Elasticity
Molecular Basis of Fibrin Clot Elasticity - ScienceDirect
Fibrinogen αC-subregions critically contribute blood clot fibre growth, mechanical stability and resistance to fibrinolysis
Combined computational modeling and experimental study of the biomechanical mechanisms of platelet-driven contraction of fibrin clots
Structural Origins of Fibrin Clot Rheology - ScienceDirect
The Molecular Basis of Fibrin Clot Elasticity
3 Schematic diagram of fibrin polymerization. Fibrinopeptides in the
Contribution of nascent cohesive fiber-fiber interactions to the non-linear elasticity of fibrin networks under tensile load - ScienceDirect
Fibrin Prestress Due to Platelet Aggregation and Contraction Increases Clot Stiffness
Engineered Molecular Therapeutics Targeting Fibrin and the Coagulation System: a Biophysical Perspective
Multiscale structure of the fibrin clot. Fibrinography, based upon
Thrombin effects on fibrin clot network and fibrin fiber size.
Fibrin clot mechanical response and fiber strain probability
The Molecular Basis of Fibrin Clot Elasticity
Interplay of Platelet Contractility and Elasticity of Fibrin/Erythrocytes in Blood Clot Retraction.