Fondazione RiMED, Palermo, Italia.
J Thorac Cardiovasc Surg. 2012 Feb;143(2):460-7. doi: 10.1016/j.jtcvs.2011.07.058. Epub 2011 Aug 25.
The acute dissection of an ascending thoracic aortic aneurysm (ATAA) represents a devastating separation of elastic layers occurring when the hemodynamic loads on the diseased wall exceed the adhesive strength between layers. At present, the mechanics underlying aortic dissection are largely unclear, and the biomechanical delamination properties of the aneurysmal aorta are not defined. Individuals with bicuspid aortic valve (BAV) are particularly predisposed to ascending aortic aneurysm formation, with a marked risk of aortic dissection. The purpose of this study was to evaluate and compare the dissection properties of nonaneurysmal and aneurysmal human ascending thoracic aorta from patients with BAV morphology or normal tricuspid aortic valve (TAV) morphology using biomechanical delamination testing.
The influence on the delamination strength (S(d)) of the aorta associated with BAV was compared with that in patients with TAV. After complete delamination of ATAA tissue samples, tensile tests were performed on each delaminated half for comparison of their tensile strengths.
The results showed that the aneurysmal aortas with BAV and TAV have lower S(d) than nonaneurysmal aortas and that ATAA with BAV has a lower S(d) than that with TAV. We have found a significant difference in S(d) between longitudinal and circumferential directions of the nondiseased aorta, suggesting anisotropic dissection properties.
The tensile testing results suggest that the weaker intimal half of the aortic wall might fail before the outer adventitial half. Scanning electron microscope analyses suggest different failure modalities of dissection between the two morphologies, and the lower S(d) in ATAAs appears to be associated with a disorganized microstructure. BAV ATAAs have a lower S(d) than TAV ATAAs, suggesting a greater propensity for aortic dissection.
升主动脉夹层动脉瘤(ATAA)的急性夹层是弹性层的破坏性分离,当病变壁上的血流动力学负荷超过层间的粘合力时就会发生这种分离。目前,主动脉夹层的力学基础在很大程度上尚不清楚,也没有定义动脉瘤主动脉的生物力学分层特性。二叶式主动脉瓣(BAV)患者特别容易发生升主动脉瘤形成,主动脉夹层的风险显著增加。本研究旨在使用生物力学分层测试评估和比较具有 BAV 形态或正常三尖瓣主动脉瓣(TAV)形态的患者的非动脉瘤性和动脉瘤性升主动脉的夹层特性。
比较了 BAV 对主动脉分层强度(S(d))的影响与 TAV 患者的影响。在完全分离 ATAA 组织样本后,对每个分离的半部分进行拉伸测试,以比较它们的拉伸强度。
结果表明,BAV 和 TAV 的动脉瘤性主动脉的 S(d)低于非动脉瘤性主动脉,BAV 的 ATAA 的 S(d)低于 TAV 的 ATAA。我们发现非病变主动脉的纵向和周向方向的 S(d)存在显著差异,表明存在各向异性的分层特性。
拉伸测试结果表明,主动脉壁的较弱内膜层可能在外部外膜层之前失效。扫描电子显微镜分析表明,两种形态之间存在不同的夹层失效模式,ATAAs 中的较低 S(d)似乎与组织紊乱的微观结构有关。BAV ATAAs 的 S(d)低于 TAV ATAAs,表明其主动脉夹层的倾向更大。