AI Article Synopsis
- The process of clot contraction, which helps in the healing of blood clots, is not fully understood, despite being important for preventing serious conditions like excessive bleeding and thrombosis.
- COVID-19 patients have shown difficulties in this clot contraction process, highlighting its clinical significance.
- A new computational model has been developed to analyze the mechanics of clot contraction, revealing that platelet filopodia, previously thought to only sense their environment, actually play an active role in applying mechanical forces.
Article Abstract
While blood clot formation has been relatively well studied, little is known about the mechanisms underlying the subsequent structural and mechanical clot remodeling called contraction or retraction. Impairment of the clot contraction process is associated with both life-threatening bleeding and thrombotic conditions, such as ischemic stroke, venous thromboembolism, and others. Recently, blood clot contraction was observed to be hindered in patients with COVID-19. A three-dimensional multiscale computational model is developed and used to quantify biomechanical mechanisms of the kinetics of clot contraction driven by platelet-fibrin pulling interactions. These results provide important biological insights into contraction of platelet filopodia, the mechanically active thin protrusions of the plasma membrane, described previously as performing mostly a sensory function. The biomechanical mechanisms and modeling approach described can potentially apply to studying other systems in which cells are embedded in a filamentous network and exert forces on the extracellular matrix modulated by the substrate stiffness.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10449797 | PMC |
| http://dx.doi.org/10.1038/s42003-023-05240-z | DOI Listing |
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