Force plate monitoring of human hemodynamics.

Jan Kríz, Petr Seba
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引用次数: 23

Abstract

Background: Noninvasive recording of movements caused by the heartbeat and the blood circulation is known as ballistocardiography. Several studies have shown the capability of a force plate to detect cardiac activity in the human body. The aim of this paper is to present a new method based on differential geometry of curves to handle multivariate time series obtained by ballistocardiographic force plate measurements.

Results: We show that the recoils of the body caused by cardiac motion and blood circulation provide a noninvasive method of displaying the motions of the heart muscle and the propagation of the pulse wave along the aorta and its branches. The results are compared with the data obtained invasively during a cardiac catheterization. We show that the described noninvasive method is able to determine the moment of a particular heart movement or the time when the pulse wave reaches certain morphological structure.

Conclusions: Monitoring of heart movements and pulse wave propagation may be used e.g. to estimate the aortic pulse wave velocity, which is widely accepted as an index of aortic stiffness with the application of predicting risk of heart disease in individuals. More extended analysis of the method is however needed to assess its possible clinical application.

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人体血流动力学的力板监测。
背景:无创记录由心跳和血液循环引起的运动被称为脉搏心动图。几项研究表明,测力板具有检测人体心脏活动的能力。本文的目的是提出一种基于曲线微分几何的多变量时间序列处理方法。结果:我们表明,由心脏运动和血液循环引起的身体反冲提供了一种无创的方法来显示心脏肌肉的运动和脉搏波沿主动脉及其分支的传播。结果与有创心导管插入术中获得的数据进行了比较。我们表明,所描述的非侵入性方法能够确定特定心脏运动的时刻或脉冲波到达特定形态结构的时间。结论:监测心脏运动和脉搏波传播可用于估计主动脉脉搏波速度,该速度被广泛接受为主动脉僵硬度的指标,并应用于预测个体心脏病的风险。然而,需要对该方法进行更广泛的分析,以评估其可能的临床应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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