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Platelet biomechanics, platelet bioenergetics, and applications to clinical practice and translational research.

Mitchell J GeorgeJames BynumPrajeeda NairAndrew P CapCharles E WadeCharles S CoxBrijesh S Gill
Published in: Platelets (2018)
The purpose of this review is to explore the relationship between platelet bioenergetics and biomechanics and how this relationship affects the clinical interpretation of platelet function devices. Recent experimental and technological advances highlight platelet bioenergetics and biomechanics as alternative avenues for collecting clinically relevant data. Platelet bioenergetics drive energy production for key biomechanical processes like adhesion, spreading, aggregation, and contraction. Platelet function devices like thromboelastography, thromboelastometry, and aggregometry measure these biomechanical processes. Platelet storage, stroke, sepsis, trauma, or the activity of antiplatelet drugs alters measures of platelet function. However, the specific mechanisms governing these alterations in platelet function and how they relate to platelet bioenergetics are still under investigation.
Keyphrases
  • clinical practice
  • intensive care unit
  • machine learning
  • acute kidney injury
  • escherichia coli
  • cystic fibrosis
  • deep learning
  • subarachnoid hemorrhage
  • septic shock