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首页> 美国卫生研究院文献>American Journal of Physiology - Heart and Circulatory Physiology >Signaling and Stress Response: Regional and temporal changes in left ventricular strain and stiffness in a porcine model of myocardial infarction
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Signaling and Stress Response: Regional and temporal changes in left ventricular strain and stiffness in a porcine model of myocardial infarction

机译:信号传递和应激反应:猪心肌梗死模型中左心室应变和僵硬程度的区域和时间变化

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The aim of the present study was to serially track how myocardial infarction (MI) impacts regional myocardial strain and mechanical properties of the left ventricle (LV) in a large animal model. Post-MI remodeling has distinct regional effects throughout the LV myocardium. Regional quantification of LV biomechanical behavior could help explain changes in global function and thus advance clinical assessment of post-MI remodeling. The present study is based on a porcine MI model to characterize LV biomechanics over 28 days post-MI via speckle-tracking echocardiography (STE). Regional myocardial strain and strain rate were recorded in the circumferential, radial, and longitudinal directions at baseline and at 3, 14, and 28 days post-MI. Regional myocardial wall stress was calculated using standard echocardiographic metrics of geometry and Doppler-derived hemodynamic measurements. Regional diastolic myocardial stiffness was calculated from the resultant stress-strain relations. Peak strain and phasic strain rates were nonuniformly reduced throughout the myocardium post-MI, whereas time to peak strain was increased to a similar degree in the MI region and border zone by 28 days post-MI. Elevations in diastolic myocardial stiffness in the MI region plateaued at 14 days post-MI, after which a significant reduction in MI regional stiffness in the longitudinal direction occurred between 14 and 28 days post-MI. Post-MI biomechanical changes in the LV myocardium were initially limited to the MI region but nonuniformly extended into the neighboring border zone and remote myocardium over 28 days post-MI. STE enabled quantification of regional and temporal differences in myocardial strain and diastolic stiffness, underscoring the potential of this technique for clinical assessment of post-MI remodeling.>NEW & NOTEWORTHY For the first time, speckle-tracking echocardiography was used to serially track regional biomechanical behavior and mechanical properties postmyocardial infarction (post-MI). We found that changes initially confined to the MI region extended throughout the myocardium in a nonuniform fashion over 28 days post-MI. Speckle-tracking echocardiography-based evaluation of regional changes in left ventricular biomechanics could advance both clinical assessment of left ventricular remodeling and therapeutic strategies that target aberrant biomechanical behavior post-MI.
机译:本研究的目的是在大型动物模型中连续追踪心肌梗塞(MI)如何影响局部心肌应变和左心室(LV)的力学特性。 MI后重塑在整个LV心肌中具有明显的区域效应。左室生物力学行为的区域量化可以帮助解释整体功能的变化,从而促进心梗后重塑的临床评估。本研究基于猪MI模型,通过斑点跟踪超声心动图(STE)表征MI后28天的LV生物力学。在MI后3天,14天和28天,在基线,周向,径向和纵向记录局部心肌应变和应变率。使用几何标准超声心动图指标和多普勒血流动力学测量值计算局部心肌壁应力。从产生的应力-应变关系计算区域舒张期心肌的刚度。心肌梗死后整个心肌的峰值应变和相应变率均不均匀降低,而心肌梗死后28天,心肌梗死区域和边界区的达到峰值应变的时间增加到相似的程度。 MI后14天,MI区域舒张期心肌硬度升高,然后在MI后14至28天之间纵向MI区域硬度明显降低。心肌梗死后心肌梗死后的生物力学变化最初仅限于心肌梗死区域,但在心肌梗死后28天未均匀地扩展到邻近的边界区和远端心肌。 STE可以量化心肌应变和舒张期僵硬程度的区域和时间差异,强调了该技术在MI后重塑的临床评估中的潜力。> NEW&NOTEWORTHY 用于连续跟踪心肌梗塞后(MI后)的区域生物力学行为和力学性能。我们发现,最初局限于心肌梗死区域的变化在心肌梗死后28天以非均匀的方式扩展到整个心肌。基于斑点跟踪超声心动图的左心室生物力学区域变化评估可以促进左心室重构的临床评估和针对MI后异常生物力学行为的治疗策略。

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