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一种用于测量血小板收缩动力学的有用装置。

A Useful Device to Measure Kinetics of Platelet Contraction.

机构信息

From the Department of Surgery and the Center for Translational Injury Research, University of Texas Health Science Center, Houston, Texas.

出版信息

ASAIO J. 2018 Jul/Aug;64(4):529-535. doi: 10.1097/MAT.0000000000000677.

DOI:10.1097/MAT.0000000000000677
PMID:28938305
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5862721/
Abstract

Platelet contraction provides a minimally invasive source for physiologic information. In this article, we describe a device that directly measures the kinetics of platelet contraction. Whole blood is injected between acrylic plates and an adherent clot forms. The bottom plate is fixed, and the top plate is attached to a wire cantilever. Platelet contraction drives deflection of the wire cantilever which is captured by a camera. Force generated by the clot with time is derived using beam equations. Force derivations were verified using a microelectromechanical (MEMS) force sensor. Kinetics of clot contraction were defined, including maximum contraction force (FMAX), lift-off time (TLIFTOFF), and contraction rate (CR). Metrics were compared with optical aggregometry and thromboelastography. FMAX correlates with optical aggregometry maximal amplitude with a Spearman's rho of 0.7904 and p = 0.0195 and thromboelastography maximal amplitude with a Spearman's rho of 0.8857 and p = 0.0188. Lift-off time correlates with optical aggregometry lag time with a Spearman's rho of 0.9048 and p = 0.002. This preliminary study demonstrates the repeatability of a useful platelet contraction device and its correlation with thromboelastography and optical aggregometry, the gold standard platelet function test.

摘要

血小板收缩为生理信息提供了一种微创来源。在本文中,我们描述了一种直接测量血小板收缩动力学的设备。全血被注入亚克力板之间,形成一个附着的凝块。下板固定,上板连接到金属丝悬臂梁。血小板收缩驱动金属丝悬臂梁的偏转,由相机捕捉。使用梁方程得出随时间产生的力。使用微机电系统(MEMS)力传感器验证了力推导。定义了凝块收缩的动力学,包括最大收缩力(FMAX)、离位时间(TLIFTOFF)和收缩率(CR)。与光学聚集测定法和血栓弹性描记法进行了比较。FMAX 与光学聚集测定法的最大振幅呈正相关,Spearman 相关系数为 0.7904,p=0.0195,与血栓弹性描记法的最大振幅呈正相关,Spearman 相关系数为 0.8857,p=0.0188。离位时间与光学聚集测定法的滞后时间呈正相关,Spearman 相关系数为 0.9048,p=0.002。这项初步研究证明了一种有用的血小板收缩设备的可重复性及其与血栓弹性描记法和光学聚集测定法的相关性,光学聚集测定法是血小板功能测试的金标准。

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