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50立方厘米宾夕法尼亚州立大学人工心脏中体内血栓沉积与血流特性的相关性:一项初步研究。

Correlation of in vivo clot deposition with the flow characteristics in the 50 cc penn state artificial heart: a preliminary study.

作者信息

Hochareon Pramote, Manning Keefe B, Fontaine Arnold A, Tarbell John M, Deutsch Steven

机构信息

Department of Bioengineering, Pennsylvania State University, University Park, Pennsylvania 16802, USA.

出版信息

ASAIO J. 2004 Nov-Dec;50(6):537-42. doi: 10.1097/01.mat.0000145694.40637.a0.

Abstract

Flow stasis in an artificial heart may provide a situation where thrombus develops. Should part, or all, of the clot dislodge, a thromboembolism may lead to stroke(s), neurologic deficits, or even death. In an effort to determine if the regime of low shear or stasis exists, a two-dimensional particle image velocimetry (PIV) system was implemented to measure the velocity field within the 50 cc Penn State Artificial Heart. The velocity measurements were decomposed nearest the wall to obtain wall shear rates along the bottom of the chamber. The PIV measurements were made in three image planes across the depth of the chamber to reconstruct a surface distribution of the wall shear rates at the bottom over the entire heart cycle. The wall shear rate is shown to be spatially nonuniform, with persistently low wall shear rates. An area near the front edge of the chamber at the bottom showed wall shear rates not exceeding 250 s(-1). This was an area of clot formation seen in vivo, suggesting a link may exist between the low wall shear rate zone and thrombus formation.

摘要

人工心脏中的血流淤滞可能会形成血栓。如果部分或全部血栓脱落,血栓栓塞可能会导致中风、神经功能缺损甚至死亡。为了确定是否存在低剪切力或血流淤滞状态,采用二维粒子图像测速(PIV)系统来测量50立方厘米的宾夕法尼亚州立大学人工心脏内的速度场。在最靠近壁面处对速度测量值进行分解,以获得腔室底部的壁面剪切率。在腔室深度方向的三个图像平面上进行PIV测量,以重建整个心动周期内底部壁面剪切率的表面分布。结果表明,壁面剪切率在空间上不均匀,且壁面剪切率持续较低。腔室底部前缘附近的一个区域显示壁面剪切率不超过250秒^(-1)。这是在体内观察到的血栓形成区域,表明低壁面剪切率区域与血栓形成之间可能存在联系。

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