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W3007163981 endingPage "401" @default.
W3007163981 startingPage "386" @default.
W3007163981 abstract "Platelets are the key cellular components of blood primarily contributing to formation of stable hemostatic plugs at the site of vascular injury, thus preventing excessive blood loss. On the other hand, excessive platelet activation can contribute to thrombosis. Platelets respond to many stimuli that can be of biochemical, cellular, or physical origin. This drives platelet activation kinetics and plays a vital role in physiological and pathological situations. Currently used bulk assays are inadequate for comprehensive biomechanical assessment of single platelets. Individual platelets interact and respond differentially while modulating their biomechanical behavior depending on dynamic changes that occur in surrounding microenvironments. Quantitative description of such a phenomenon at single-platelet regime and up to nanometer resolution requires methodological approaches that can manipulate individual platelets at submicron scales. This review focusses on principles, specific examples, and limitations of several relevant biophysical methods applied to single-platelet analysis such as micropipette aspiration, atomic force microscopy, scanning ion conductance microscopy and traction force microscopy. Additionally, we are introducing a promising single-cell approach, real-time deformability cytometry, as an emerging biophysical method for high-throughput biomechanical characterization of single platelets. This review serves as an introductory guide for clinician scientists and beginners interested in exploring one or more of the above-mentioned biophysical methods to address outstanding questions in single-platelet biomechanics." @default.
W3007163981 created "2020-03-06" @default.
W3007163981 creator A5048280556 @default.
W3007163981 creator A5052886866 @default.
W3007163981 creator A5073880246 @default.
W3007163981 creator A5075868354 @default.
W3007163981 date "2020-03-01" @default.
W3007163981 modified "2023-10-03" @default.
W3007163981 title "Quantifying single‐platelet biomechanics: An outsider’s guide to biophysical methods and recent advances" @default.
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