心肌生物力学模型的当代研究。

IF 12.8 1区 工程技术 Q1 ENGINEERING, BIOMEDICAL
Reza Avazmohammadi, João S Soares, David S Li, Samarth S Raut, Robert C Gorman, Michael S Sacks
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引用次数: 44

摘要

了解和预测健康和病理生理条件下心肌的力学行为对于开发新的心脏疗法和促进个性化干预至关重要。在过去的30年里,人们提出了各种心肌被动力学行为的本构模型。这些模型涵盖了广泛的数学形式、微观结构观察结果和适用的特定测试条件。我们对这些模型进行了批判性的回顾,涵盖了现象学和结构学方法,以及它们与心肌潜在结构和功能的关系。我们进一步探索了用于识别模型参数的实验和数值技术。接下来,我们简要概述了心肌的连续水平机电模型,重点介绍了用于整合心肌行为的主动和被动成分的方法。最后,我们指出了最佳形态领域的未来方向,以及心肌本构模型的新方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A Contemporary Look at Biomechanical Models of Myocardium.

A Contemporary Look at Biomechanical Models of Myocardium.

A Contemporary Look at Biomechanical Models of Myocardium.

A Contemporary Look at Biomechanical Models of Myocardium.

Understanding and predicting the mechanical behavior of myocardium under healthy and pathophysiological conditions are vital to developing novel cardiac therapies and promoting personalized interventions. Within the past 30 years, various constitutive models have been proposed for the passive mechanical behavior of myocardium. These models cover a broad range of mathematical forms, microstructural observations, and specific test conditions to which they are fitted. We present a critical review of these models, covering both phenomenological and structural approaches, and their relations to the underlying structure and function of myocardium. We further explore the experimental and numerical techniques used to identify the model parameters. Next, we provide a brief overview of continuum-level electromechanical models of myocardium, with a focus on the methods used to integrate the active and passive components of myocardial behavior. We conclude by pointing to future directions in the areas of optimal form as well as new approaches for constitutive modeling of myocardium.

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来源期刊
Annual Review of Biomedical Engineering
Annual Review of Biomedical Engineering 工程技术-工程:生物医学
CiteScore
18.80
自引率
0.00%
发文量
14
期刊介绍: Since 1999, the Annual Review of Biomedical Engineering has been capturing major advancements in the expansive realm of biomedical engineering. Encompassing biomechanics, biomaterials, computational genomics and proteomics, tissue engineering, biomonitoring, healthcare engineering, drug delivery, bioelectrical engineering, biochemical engineering, and biomedical imaging, the journal remains a vital resource. The current volume has transitioned from gated to open access through Annual Reviews' Subscribe to Open program, with all articles published under a CC BY license.
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