Atherosclerotic Calcifications Have a Local Effect on the Peel Behavior of Human Aortic Media.

IF 1.7 4区 医学 Q4 BIOPHYSICS
Carly L Donahue, Ruturaj M Badal, Thomas S Younger, Weihua Guan, Elena G Tolkacheva, Victor H Barocas
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引用次数: 0

Abstract

Aortic dissections, characterized by the propagation of a tear through the layers of the vessel wall, are critical, life-threatening events. Aortic calcifications are a common comorbidity in both acute and chronic dissections, yet their impact on dissection mechanics remains unclear. Using micro-computed tomography (CT) imaging, peel testing, and finite element modeling, this study examines the interplay between atherosclerotic calcifications and dissection mechanics. Samples cut from cadaveric human thoracic aortas were micro-CT imaged and subsequently peel-tested to map peel tension curves to the location of aortic calcifications. Empirical mode decomposition separated peel tension curves into high and low-frequency components, with high-frequency effects corresponding to interlamellar bonding mechanics and low-frequency effects to peel tension fluctuations. Finally, we used an idealized finite element model to examine how stiff calcifications affect aortic failure mechanics. Results showed that atherosclerosis influences dissection behavior on multiple length scales. Experimentally, atherosclerotic samples exhibited higher peel tensions and greater variance in the axial direction. The variation was driven by increased amplitudes of low-frequency tension fluctuations in diseased samples, indicating that more catastrophic propagations occur near calcifications. The simulations corroborated this finding, suggesting that the low-frequency changes resulted from the presence of a stiff calcification in the vessel wall. There were also modifications to the high-frequency peel mechanics, a response likely attributable to alterations in the microstructure and interlamellar bonding within the media. Considered collectively, these findings demonstrate that dissection mechanics are modified in aortic media nearby and adjacent to aortic calcifications.

动脉粥样硬化钙化对人体主动脉介质的剥离行为有局部影响。
主动脉夹层的特征是撕裂在血管壁各层传播,是危及生命的严重事件。主动脉钙化是急性和慢性主动脉夹层的常见并发症,但其对夹层力学的影响仍不清楚。本研究利用微型计算机断层扫描成像、剥离测试和有限元建模,研究了动脉粥样硬化钙化与夹层力学之间的相互作用。对从人体胸部主动脉切取的样本进行了显微 CT 成像,随后进行了剥离测试,以将剥离张力曲线映射到主动脉钙化的位置。经验模态分解法将剥离张力曲线分为高频和低频成分,高频效应与层间结合力学相对应,低频效应与剥离张力波动相对应。最后,我们使用一个理想化的有限元模型来研究僵硬钙化如何影响主动脉失效力学。结果表明,动脉粥样硬化会在多个长度尺度上影响夹层行为。在实验中,动脉粥样硬化样本表现出更高的剥离张力和更大的轴向差异。病变样本中低频张力波动幅度增大导致了这种变化,这表明在钙化附近会发生更多灾难性传播。模拟证实了这一发现,表明低频变化是由于血管壁上存在坚硬的钙化造成的。高频剥离力学也发生了变化,这种反应可能是由于介质内部的微结构和层间结合发生了变化。综合来看,这些研究结果表明,在主动脉钙化附近和邻近的主动脉介质中,夹层力学发生了改变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.40
自引率
5.90%
发文量
169
审稿时长
4-8 weeks
期刊介绍: Artificial Organs and Prostheses; Bioinstrumentation and Measurements; Bioheat Transfer; Biomaterials; Biomechanics; Bioprocess Engineering; Cellular Mechanics; Design and Control of Biological Systems; Physiological Systems.
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