氧消耗心脏机械能和收缩力

Proceedings of 18th Annual International Conference of the IEEE Engineering in Medicine and Biology Society Pub Date : 1996-10-31 DOI:10.1109/IEMBS.1996.652831

H. Suga, M. Takaki, H. Matsubara, F. Araki

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引用次数: 0

摘要

为了最大限度地提高心室泵送效率，应该更好地了解心脏氧(或能量)消耗的决定因素。作者提出了一种新的框架，通过左心室压力-容积(P-V)数据预测每拍心脏耗氧量(Vo/sub 2/)。该方法的实质是求出与Vo/sub 2/相关的Emax和PVA，其中Emax=收缩期末期P-V关系的斜率或最大弹性，作为收缩性的指标，PVA=收缩期P-V面积，作为收缩总机械能的度量=外功EW+机械势能PE。得到的经验方程为Vo/sub 2/=aPVA+b=aPVA+cEmax+d。泵送效率(EW/Vo/sub 2/)则由EW/(aPVA+cEmax+d)给出。因此，通过降低a (O/sub 2/ PVA成本)和c (O/sub 2/ Emax成本)来最小化分母，除了选择PVA和Emax的最佳组合以满足每分钟所需的EW外，还可以实现最大效率。

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Oxygen costs of cardiac mechanical energy and contractility

To maximize ventricular pumping efficiency, determinants of cardiac oxygen (or energy) consumption should be better understood. The authors have proposed a new framework to predict cardiac oxygen consumption per beat (Vo/sub 2/) from left ventricular pressure-volume (P-V) data. The essence of the method is to obtain both Emax and PVA to correlate with Vo/sub 2/, where Emax=slope of the end-systolic P-V relation or maximum elastance, as an index of contractility, PVA=systolic P-V area as a measure of total mechanical energy of contraction=external work EW+mechanical potential energy PE. The empirical equation the authors have obtained is Vo/sub 2/=aPVA+b=aPVA+cEmax+d. Pumping efficiency (EW/Vo/sub 2/) is then given by EW/(aPVA+cEmax+d). Therefore, a maximum efficiency is achieved by minimizing the denominator by decreasing a (O/sub 2/ cost of PVA) and c (O/sub 2/ cost of Emax) besides choosing an optimal combination of PVA and Emax for a required EW per min.

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Proceedings of 18th Annual International Conference of the IEEE Engineering in Medicine and Biology Society

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