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Resolving the missing link between single platelet force and clot contractile force

Yueyi Sun, Oluwamayokun Oshinowo, David R. Myers, Wilbur A. Lam, Alexander Alexeev

2021iScience23 citationsDOIOpen Access PDF

Abstract

Blood clot contraction plays an important role in wound healing and hemostasis. Although clot contraction is known to be driven by platelets, how single platelet forces relate to the forces generated by macroscopic clots remains largely unknown. Using our microfabricated high-throughput platelet contraction cytometer, we find that single platelets have an average force of 34 nN (n=10 healthy individuals). However, multiple bulk clot experiments predict a mean single platelet force lower than 0.5 nN. To resolve this discrepancy, we use a mesoscale computational model to probe the mechanism by which individual platelets induce forces in macroscopic clots. Our experimentally informed model shows that the number of platelets in the clot cross-section defines the net clot force. We provide a relationship between single platelet force and the clot force that is useful for better understanding of blood disorders associated with bleeding and thrombosis, and facilitates the development of platelet-based and platelet-mimetic biomaterials.

Topics & Concepts

PlateletHemostasisClot retractionContraction (grammar)ChemistryBiophysicsPlatelet activationThrombosisBiomedical engineeringPlatelet aggregationInternal medicineMedicineBiologyPlatelet Disorders and TreatmentsBlood properties and coagulationPolymer Surface Interaction Studies
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