人体腹主动脉及其瘤的力学、机械生物学和建模。
Mechanics, mechanobiology, and modeling of human abdominal aorta and aneurysms.
机构信息
Department of Biomedical Engineering and Vascular Biology and Therapeutics Program, Malone Engineering Center, Yale University, New Haven, CT 06520-8260, USA.
出版信息
J Biomech. 2012 Mar 15;45(5):805-14. doi: 10.1016/j.jbiomech.2011.11.021. Epub 2011 Dec 19.
Abstract
Biomechanical factors play fundamental roles in the natural history of abdominal aortic aneurysms (AAAs) and their responses to treatment. Advances during the past two decades have increased our understanding of the mechanics and biology of the human abdominal aorta and AAAs, yet there remains a pressing need for considerable new data and resulting patient-specific computational models that can better describe the current status of a lesion and better predict the evolution of lesion geometry, composition, and material properties and thereby improve interventional planning. In this paper, we briefly review data on the structure and function of the human abdominal aorta and aneurysmal wall, past models of the mechanics, and recent growth and remodeling models. We conclude by identifying open problems that we hope will motivate studies to improve our computational modeling and thus general understanding of AAAs.
摘要
生物力学因素在腹主动脉瘤(AAA)的自然病史及其对治疗的反应中起着至关重要的作用。在过去的二十年中,我们对人类腹主动脉和 AAA 的力学和生物学有了更深入的了解,但仍迫切需要大量新的数据和由此产生的针对个体患者的计算模型,以便更好地描述病变的现状,并更好地预测病变几何形状、组成和材料性质的演变,从而改进介入治疗计划。在本文中,我们简要回顾了有关人类腹主动脉和动脉瘤壁的结构和功能、过去的力学模型以及最近的生长和重塑模型的数据。最后,我们确定了一些悬而未决的问题,希望这些问题能够激发研究工作,以改进我们的计算模型,从而提高对 AAA 的整体认识。
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