Emerging Microfluidic Approaches for Platelet Mechanobiology and Interplay With Circulatory Systems

Understanding how platelets can sense and respond to hemodynamic forces in disturbed blood flow and complexed vasculature is crucial to the development of more effective and safer antithrombotic therapeutics. By incorporating diverse structural and functional designs, microfluidic technologies have...

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Veröffentlicht in:	Frontiers in cardiovascular medicine 2021-11, Vol.8, p.766513-766513
Hauptverfasser:	Zhang, Yingqi, Ramasundara, Savindi De Zoysa, Preketes-Tardiani, Renee Ellen, Cheng, Vivian, Lu, Hongxu, Ju, Lining Arnold
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Sprache:	eng
Schlagworte:	Cardiovascular Medicine endothelial cells hemodynamic mechanobiology microfluidic platelet thrombosis
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creator	Zhang, Yingqi Ramasundara, Savindi De Zoysa Preketes-Tardiani, Renee Ellen Cheng, Vivian Lu, Hongxu Ju, Lining Arnold
description	Understanding how platelets can sense and respond to hemodynamic forces in disturbed blood flow and complexed vasculature is crucial to the development of more effective and safer antithrombotic therapeutics. By incorporating diverse structural and functional designs, microfluidic technologies have emerged to mimic microvascular anatomies and hemodynamic microenvironments, which open the floodgates for fascinating platelet mechanobiology investigations. The latest endothelialized microfluidics can even recapitulate the crosstalk between platelets and the circulatory system, including the vessel walls and plasma proteins such as von Willebrand factor. Hereby, we highlight these exciting microfluidic applications to platelet mechanobiology and platelet-circulatory system interplay as implicated in thrombosis. Last but not least, we discuss the need for microfluidic standardization and summarize the commercially available microfluidic platforms for researchers to obtain reproducible and consistent results in the field.
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subjects	Cardiovascular Medicine endothelial cells hemodynamic mechanobiology microfluidic platelet thrombosis
title	Emerging Microfluidic Approaches for Platelet Mechanobiology and Interplay With Circulatory Systems
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