The layer-specific biomechanical properties of dissecting ascending aortic aneurysm (Stanford type A of dissection)

Pub Date : 2022-01-01 DOI:10.37190/abb-02020-2022-01

Marta Kozuń, M. Kaczorowski, A. Hałoń

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Abstract

Purpose: The aims of this paper was the analysis of the mechanical properties of dissected wall of the ascending aortic aneurysm (n = 12). Methods: All aortas were collected from men (mean age: 48 ± 12 years, mean diameter of the aneurysm: 49 mm ± 4 mm). The mechanical properties were determined based on directional tensile test. The biomechanical assay was complemented by conducting histological analysis (hematoxylin and eosin, Mallory’s trichrome, Azan stain). Results: The highest values (median) of failure Cauchy stress, failure force, Young’s modulus and stiffness coefficient were obtained for the adventitia (max = 1.40 MPa, Fmax = 4.05 N, E = 26.11 MPa, k = 1.06 N/mm). Conclusions: The results indicate that the mechanical function of the adventitia in healthy tissue and dissected ascending aorta aneurysm is the same, i.e., it protects the vessel against destruction. The failure Cauchy stresses found in the media and intima are comparable and amounted to 0.23 and 0.21 MPa, respectively. The results indicate that dissection affects the mechanical properties of ascending aorta wall layers. The mechanical loads are probably transferred within the dissected aneurysmal wall not only through the media, but also through the intima.

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分层解剖升主动脉瘤(Stanford A型夹层)的生物力学特性

目的:对12例升主动脉瘤夹层壁的力学特性进行分析。方法:所有动脉瘤均为男性，平均年龄48±12岁，动脉瘤平均直径49 mm±4 mm。通过定向拉伸试验确定了材料的力学性能。生物力学试验辅以组织学分析(苏木精和伊红，Mallory’s三色，Azan染色)。结果:外膜的破坏柯西应力、破坏力、杨氏模量和刚度系数的最大值(中位数)为:max = 1.40 MPa, Fmax = 4.05 N, E = 26.11 MPa, k = 1.06 N/mm。结论:健康组织外膜与剥离的升主动脉动脉瘤具有相同的机械功能，即保护血管不受破坏。在中膜和内膜中发现的失败柯西应力具有可比性，分别为0.23和0.21 MPa。结果表明，夹层影响升主动脉壁层的力学性能。机械载荷可能不仅通过中膜，而且通过内膜在夹层内传递。

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