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Quantification of first heart sound frequency dynamics across the human chest wall.

作者信息

Wood J C, Barry D T

机构信息

Department of Physical Medicine and Rehabilitation, University of Michigan Medical School, Ann Arbor.

出版信息

Med Biol Eng Comput. 1994 Jul;32(4 Suppl):S71-8. doi: 10.1007/BF02523331.

DOI:10.1007/BF02523331
PMID:7967843
Abstract

Power spectral analysis has attracted attention because of its potential for non-invasive cardiac diagnosis. However, time-frequency analysis of first heart sound frequency dynamics from canine epicardium has demonstrated that cardiac vibrations are fundamentally multi-component and non-stationary, questioning the validity of power spectral techniques. In this study, we employed time-frequency transforms to characterise first heart sound frequency dynamics from 27 sites across the human thorax. In contrast to the dynamics observed epicardially, the first heart sound frequency law was dominated by quasi-stationary and impulse-like components implying that the instantaneous power and the power spectrum contain most of the diagnostic information in the first heart sound.

摘要

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Haemodynamic determinants of the mitral valve closure sound: a finite element study.二尖瓣关闭音的血流动力学决定因素:一项有限元研究。

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Structural mechanics of the mitral valve: stresses sustained by the valve; non-traumatic determination of the stiffness of the in vivo valve.二尖瓣的结构力学:瓣膜承受的应力;体内瓣膜刚度的无创测定
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