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Rapid and Nondestructive Evaluation of Platelet Function in Whole Blood by Microfluidic Deterministic Cytometry.

Yue ChenJieqi DengRunhui ZhangHuaze ShaoDan XuLihong Liu
Published in: Analytical chemistry (2023)
Platelet size is a determinant of platelet function. Here, a new microfluidic deterministic cytometry packed with S -shaped micropillars ( S -MDC) was developed to rapidly and sensitively determine the apparent size ( D app ) of platelets, which was used to evaluate platelet function. The platelet D app in the diluted whole blood was rapidly and label-freely measured by S -MDC within 2 min under shear rates (0.4 mm/s) that mimicked physiological conditions. The level of CD62p on platelets scarcely changed before and after platelets went through the whole S -MDC, indicating that the platelet function was nondestructive. Notably, the human platelet D app determined before and after thrombin addition by S -MDC was highly coincident with the levels of CD62p on the platelet surface by flow cytometry ( r = 0.819), revealing that the human platelet D app was available to assess the platelet activation state. In addition, the results of the rat platelet D app were consistent with myocardial injury of rats with myocardial ischemia before and after treatment with antiplatelet agents, suggesting that rat platelet D app can be used to reflect myocardial injury in vivo outcomes. These findings reveal that S -MDC is a promising technique for screening tests for a bleeding disorder, in addition to monitoring antiplatelet drugs.
Keyphrases
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  • metabolic syndrome
  • gene expression
  • computed tomography
  • magnetic resonance
  • weight loss
  • red blood cell
  • nk cells