紫外线诱导降解猪主动脉外膜的机械增强:对预防动脉瘤破裂的意义

T. Chirila, Shuko Suzuki
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引用次数: 1

摘要

在之前的研究中,我们已经证明,通过紫外线照射猪腹主动脉外膜,可以促进组成型胶原的光交联,从而对其进行机械强化,并提出了这种方法作为预防或延缓腹主动脉瘤(AAA)破裂的一种方法。我们还证明,尽管体外胶原溶解导致外膜降解,但紫外线照射诱导的机械增强。考虑到弹性分解在AAA的发病机制中同样是一个相关事件,本研究也对弹性蛋白的降解进行了研究。本研究共使用了50条猪主动脉。所有处理过的样品在降解和/或辐照前后在机械测试仪中进行评估。我们发现弹性蛋白和胶原蛋白都被弹性酶消化,前者在48小时后被完全消化。降解1小时的样品随后在核黄素作为光引发剂存在的情况下用UV-A (365 nm)照射,这一过程诱导了组织强度和刚度的增强。这表明部分退化的主动脉壁,如动脉瘤区,可以通过紫外线照射机械强化,可能在一定程度上延迟或完全防止主动脉壁的破裂。尽早照射胸壁显得很重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ultraviolet-induced mechanical augmentation of the degraded porcine aortic adventitia: Its significance for preventing aneurysmal rupture
In the previous studies, we have shown that the tunica adventitia of porcine abdominal aorta could be mechanically reinforced by irradiating it with ultraviolet A (UV-A) rays to promote the photocrosslinking of constitutive collagen, and we have proposed the method as a procedure to prevent or delay abdominal aortic aneurysm (AAA) ruptures. We have also demonstrated that UV irradiation-induced mechanical augmentation despite the degradation of the adventitia through collagenolysis in vitro. Considering that elastolysis is equally a relevant event in the pathogenesis of AAA, the degradation of elastin was also investigated in the present study. A total of 50 porcine aortas were used in the study. All processed samples were evaluated in a mechanical tester before and after degradation and/or irradiation. The adventitial layer was isolated and subjected to elastase for either 1 – 48 h. We found that both elastin and collagen were digested by elastase, with the former being completely digested after 48 h. The samples degraded for 1 h were subsequently irradiated with UV-A (365 nm) in the presence of riboflavin as a photoinitiator, a process that induced an enhancement of the strength and stiffness of the tissue. This is an indication that a partly degenerated aortic wall, like that in an aneurysmal region, can be reinforced mechanically by UV irradiation, possibly to the extent of delaying, or preventing altogether, the wall’s rupture. It appears important to irradiate the wall as early as possible.
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