左心室几何形状、后负荷和心肌收缩力对射血分数保留心力衰竭心肌应变作用的计算模型研究。
Computational Modeling Studies of the Roles of Left Ventricular Geometry, Afterload, and Muscle Contractility on Myocardial Strains in Heart Failure with Preserved Ejection Fraction.
机构信息
Department of Mechanical Engineering, Michigan State University, 428 S Shaw Lane, East Lansing, MI, 48824, USA.
Department of Mechanical Engineering, Bangladesh University of Engineering and Technology, Dhaka, 1000, Bangladesh.
出版信息
J Cardiovasc Transl Res. 2021 Dec;14(6):1131-1145. doi: 10.1007/s12265-021-10130-y. Epub 2021 Apr 29.
Abstract
Global longitudinal strain and circumferential strain are found to be reduced in HFpEF, which some have interpreted that the global left ventricular (LV) contractility is impaired. This finding is, however, contradicted by a preserved ejection fraction (EF) and confounded by changes in LV geometry and afterload resistance that may also affect the global strains. To reconcile these issues, we used a validated computational framework consisting of a finite element LV model to isolate the effects of HFpEF features in affecting systolic function metrics. Simulations were performed to quantify the effects on myocardial strains due to changes in LV geometry, active tension developed by the tissue, and afterload. We found that only a reduction in myocardial contractility and an increase in afterload can simultaneously reproduce the blood pressures, EF and strains measured in HFpEF patients. This finding suggests that it is likely that the myocardial contractility is reduced in HFpEF patients. Graphical abstract.
摘要
研究发现,HFpEF 患者的整体纵向应变和环向应变降低,一些人据此推断整体左心室(LV)收缩功能受损。然而,这一发现与射血分数(EF)保留相矛盾,并且受到 LV 几何形状和后负荷阻力变化的影响,这些变化也可能影响整体应变。为了解决这些问题,我们使用了一个经过验证的计算框架,该框架由一个有限元 LV 模型组成,用于分离 HFpEF 特征对收缩功能指标的影响。进行了模拟以量化由于 LV 几何形状变化、组织产生的主动张力和后负荷引起的心肌应变的影响。我们发现,只有心肌收缩力降低和后负荷增加才能同时复制 HFpEF 患者的血压、EF 和应变测量值。这一发现表明,HFpEF 患者的心肌收缩力很可能降低。
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2
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