主动脉病变中升主动脉的力学特性与尺寸——从科学到应用
Ascending aorta mechanics and dimensions in aortopathy - from science to application.
作者信息
Cikach Frank S, Germano Emidio, Roselli Eric E, Svensson Lars G
机构信息
Department of Thoracic and Cardiovascular Surgery, Heart, Vascular, and Thoracic Institute, Cleveland Clinic, 9500 Euclid Ave, Cleveland, OH 44195 USA.
Aorta Center, Heart, Vascular, and Thoracic Institute, Cleveland Clinic, Cleveland, OH USA.
出版信息
Indian J Thorac Cardiovasc Surg. 2022 Apr;38(Suppl 1):7-13. doi: 10.1007/s12055-020-01092-y. Epub 2021 Jan 5.
Abstract
The ascending aorta has a unique microstructure and biomechanical properties that allow it to absorb energy during systole and return energy during diastole (Windkessel effect). Derangements in aortic architecture can result in changes to biomechanics and inefficiencies in function. Ultimately biomechanical failure may occur resulting in aortic dissection or rupture. By measuring aortic biomechanics with either in vivo or ex vivo methods, one may be able to predict tissue failure in patients with aortic disease such as aneurysms. An understanding of the biomechanical changes that lead to these tissue-level failures may help guide therapy, disease surveillance, surgical intervention, and aid in the development of new treatments for this deadly condition.
摘要
升主动脉具有独特的微观结构和生物力学特性,使其能够在收缩期吸收能量,并在舒张期释放能量(弹性贮器效应)。主动脉结构紊乱可导致生物力学改变和功能效率低下。最终可能会发生生物力学衰竭,导致主动脉夹层或破裂。通过体内或体外方法测量主动脉生物力学,人们或许能够预测患有主动脉疾病(如动脉瘤)患者的组织衰竭情况。了解导致这些组织水平衰竭的生物力学变化,可能有助于指导治疗、疾病监测、手术干预,并有助于开发针对这种致命疾病的新疗法。
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