Department of Biomedical Engineering, Eindhoven University of Technology, 5600 MB Eindhoven, The Netherlands.
J Biomech. 2012 Mar 15;45(5):872-81. doi: 10.1016/j.jbiomech.2011.11.029. Epub 2011 Dec 12.
The heart has the ability to respond to long-term changes in its environment through changes in mass (growth), shape (morphogenesis) and tissue properties (remodeling). For improved quantitative understanding of cardiac growth and remodeling (G&R) experimental studies need to be complemented by mathematical models. This paper reviews models for cardiac growth and remodeling of myofiber orientation, as induced by mechanical stimuli. A distinction is made between optimization models, that focus on the end stage of G&R, and adaptation models, that aim to more closely describe the mechanistic relation between stimulus and effect. While many models demonstrate qualitatively promising results, a lot of questions remain, e.g. with respect to the choice of the stimulus for G&R or the long-term stability of the outcome of the model. A continued effort combining information on mechanotransduction at the cellular level, experimental observations on G&R at organ level, and testing of hypotheses on stimulus-effect relations in mathematical models is needed to answer these questions on cardiac G&R. Ultimately, models of cardiac G&R seem indispensable for patient-specific modeling, both to reconstruct the actual state of the heart and to assess the long-term effect of potential interventions.
心脏具有通过质量(生长)、形状(形态发生)和组织特性(重塑)的变化来应对其环境中长期变化的能力。为了更深入地了解心脏生长和重塑(G&R),需要用数学模型来补充实验研究。本文回顾了由机械刺激引起的心肌纤维方向的心脏生长和重塑模型。区分了侧重于 G&R 终末阶段的优化模型和旨在更紧密描述刺激与效应之间的机械关系的适应模型。虽然许多模型在定性上显示出有希望的结果,但仍有许多问题悬而未决,例如关于 G&R 的刺激选择或模型结果的长期稳定性。需要继续努力,将细胞水平的力学转导信息、器官水平的 G&R 实验观察以及数学模型中关于刺激-效应关系的假设检验结合起来,以回答这些关于心脏 G&R 的问题。最终,心脏 G&R 模型对于针对患者的建模似乎是不可或缺的,既可重建心脏的实际状态,又可评估潜在干预措施的长期效果。
