聚合物类型和纤维取向对电纺丝血管移植物顺应性的影响

Suzan Ozdemir, J. Oztemur, H. Sezgin, I. Yalcin-Enis
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引用次数: 0

摘要

血管疾病是全球死亡的一个主要来源。然而,缺乏自体血管的可及性和商业小直径血管移植物的不良疗效限制了手术选择。因此,研究人员致力于开发满足所有要求的血管假体。除了组织工程移植物的好处之外,仍然阻碍成功移植的重大障碍包括顺应性不匹配、扩张、血栓形成和缺乏弹性蛋白。在这些问题中,文献中提到天然血管与人工血管支架的顺应性不匹配可能导致内膜增生、缝合部位破裂以及内皮细胞和血小板细胞损伤。因此,需要使用合适的材料和优化的制造技术来更好地控制移植物的特性和功能。特别是,在电纺丝血管移植物的情况下,通过调整材料选择、纤维取向、孔隙率和壁厚等电纺丝参数,可以在很大范围内调整顺应性。本研究采用两种不同的旋转速度制备了由纯PCL、PLA及其共混物组成的电纺丝血管移植物,实现了定向和非定向支架。研究了聚合物类型和纤维取向对柔性性能的影响。结果表明,材料选择和纤维排列对顺应性水平有显著影响。PCL100_R支架的顺应性值最高,PCLPLA50_O支架的顺应性值最低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
THE EFFECT OF POLYMER TYPE AND FIBER ORIENTATION ON THE COMPLIANCE PROPERTIES OF ELECTROSPUN VASCULAR GRAFTS
Vascular diseases are a major source of fatalities globally. However, the lack of accessibility of autologous vessels and the poor efficacy of commercial small-diameter vascular grafts limit surgical alternatives. Researchers therefore aimed to develop vascular prostheses that meet all requirements. Apart from the benefits of tissue-engineered grafts, significant obstacles that still hinder successful grafting include compliance mismatch, dilatation, thrombus development, and the absence of elastin. Among these issues, compliance mismatch between native vessel and artificial vascular scaffold has been mentioned in the literature as a possible cause of intimal hyperplasia, suture site rupture and endothelial and platelet cell damage. As a result, the usage of suitable materials and optimized fabrication techniques are required to achieve better control over the characteristics and functionality of the grafts. In particular, in the case of electrospun vascular grafts, the compliance can be adjusted throughout a broad range of values by adjusting the electrospinning parameters such as material selection, fiber orientation, porosity, and wall thickness. In this study, the electrospun vascular grafts consisting of pure PCL, PLA, and their blends were produced by using two different rotation speeds to achieve the oriented and non-oriented scaffolds. The impact of polymer type and fiber orientation on the compliance properties was evaluated. The results revealed that both material selection and fiber alignment have a significant effect on the compliance levels. PCL100_R grafts had the highest compliance value whereas the PCLPLA50_O scaffold had the lowest.
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