Combined computational modeling and experimental study of the biomechanical mechanisms of platelet-driven contraction of fibrin clots
Christian Michael(University of California, Riverside), Mark Alber(University of California, Riverside), Rustem I. Litvinov(University of North Carolina at Chapel Hill), Oleg V. Kim(University of Pennsylvania), Samuel Britton(University of California, Riverside), Alina D. Peshkova(Kazan Federal University), Francesco Pancaldi(University of California, Riverside), John W. Weisel(University of Pennsylvania), Zhiliang Xu(University of Notre Dame), Khoi Vo(University of California, Riverside)
Cited by 14
Related Papers
Quantitative structural mechanobiology of platelet-driven blood clot contraction
|Nature Communications|2017|163
Recommendations for nomenclature on fibrinogen and fibrin
|Journal of Thrombosis and Haemostasis|2008|144
Structural basis for the nonlinear mechanics of fibrin networks under compression
|Biomaterials|2014|132
Polymerization of fibrin: specificity, strength, and stability of knob-hole interactions studied at the single-molecule level
|Blood|2005|120
Physicochemical Targeting of Lipid Nanoparticles to the Lungs Induces Clotting: Mechanisms and Solutions
|Advanced Materials|2024|99