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左心室收缩性:一种收缩功能的新测量指标。

Left ventricular contractance: A new measure of contractile function.

作者信息

MacIver David H, Scrase Thomas, Zhang Henggui

机构信息

Department of Cardiology, Taunton & Somerset Hospital, United Kingdom; Biological Physics Group, Department of Astronomy and Physics, University of Manchester, Manchester, United Kingdom.

Biological Physics Group, Department of Astronomy and Physics, University of Manchester, Manchester, United Kingdom.

出版信息

Int J Cardiol. 2023 Jan 15;371:345-353. doi: 10.1016/j.ijcard.2022.09.001. Epub 2022 Sep 7.

DOI:10.1016/j.ijcard.2022.09.001
PMID:36084798
Abstract

AIMS

Myocardial contractility is poorly defined and difficult to compare between studies. Contractance or myocardial active strain energy density (MASED) measures the mechanical work done per unit volume (with units of kJ/m) by any cardiac tissue during contraction. Contractance is an ideal candidate for measuring contractile function as it combines information from both stress and strain.

METHODS AND RESULTS

Data obtained from three previously published experimental studies using trabecular tissue was used to provide contemporaneous nominal stress and strain data in 18 different scenarios with different loading conditions. Contractance varied in the differing loading conditions with values of 1.16 (low preload), 2.02 (high afterload) and 3.76 kJ/m (normal). Contractance varied between 0 with isometric loading and 2.14 kJ/m with an isotonic and moderate afterload. Increasing inotropy increased contractance to 4.7 kJ/m.

CONCLUSION

We showed that calculating MASED was feasible and provided a measure of energy production (work done) per unit volume of myocardium during contraction. The new term for contractile function, contractance, can be defined and quantified by MASED. Contractance measures contractile function in differing preload, afterload and inotropic settings. The method of measuring contractance is transferable to the assessment of global and regional systolic function.

摘要

目的

心肌收缩性的定义尚不明确,且不同研究之间难以进行比较。收缩能或心肌主动应变能密度(MASED)可衡量任何心脏组织在收缩过程中每单位体积所做的机械功(单位为kJ/m)。收缩能是测量收缩功能的理想指标,因为它综合了应力和应变两方面的信息。

方法与结果

利用先前发表的三项使用小梁组织的实验研究获得的数据,在18种不同加载条件的不同场景下提供同期的名义应力和应变数据。收缩能在不同加载条件下有所变化,低预负荷时为1.16,高后负荷时为2.02,正常情况下为3.76 kJ/m。等长加载时收缩能为0,等张和中等后负荷时为2.14 kJ/m。增强心肌收缩力可使收缩能增加至4.7 kJ/m。

结论

我们表明,计算MASED是可行的,并提供了心肌在收缩过程中每单位体积的能量产生(所做的功)的一种度量。收缩功能的新术语收缩能,可通过MASED进行定义和量化。收缩能可测量不同预负荷、后负荷和心肌收缩力设置下的收缩功能。测量收缩能的方法可转移用于评估整体和局部的收缩功能。

相似文献

1
Left ventricular contractance: A new measure of contractile function.左心室收缩性:一种收缩功能的新测量指标。
Int J Cardiol. 2023 Jan 15;371:345-353. doi: 10.1016/j.ijcard.2022.09.001. Epub 2022 Sep 7.
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Quantifying myocardial active strain energy density: A comparative analysis of analytic and finite element methods for estimating left ventricular wall stress and strain.量化心肌主动应变能密度:用于估计左心室壁应力和应变的解析法与有限元法的比较分析
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Left ventricular active strain energy density is a promising new measure of systolic function.左心室主动应变能量密度是一种有前途的新的收缩功能测量指标。
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Global longitudinal active strain energy density (GLASED): a powerful prognostic marker in a community-based cohort.全球纵向主动应变能密度(GLASED):基于社区的队列研究中的一个强大的预后标志物。
Eur Heart J Cardiovasc Imaging. 2024 Sep 30;25(10):1405-1414. doi: 10.1093/ehjci/jeae133.
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Left ventricular active strain energy density is a promising new measure of systolic function.
左心室主动应变能量密度是一种有前途的新的收缩功能测量指标。
Sci Rep. 2022 Jul 26;12(1):12717. doi: 10.1038/s41598-022-15509-8.