血管管支架破裂强度的初步研究

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

摘要

在本研究中,静电纺丝制备了整齐的PCL、整齐的PLA和PLA/PCL(50/50)基管状表面,以模拟天然血管结构,并研究了接枝材料和纤维取向对破裂强度的影响。用自制的破裂压力测试仪测量了随机取向纤维和定向纤维设计的血管移植结构的破裂压力值,并对结果进行了比较。结果表明,无论何种生物材料,纤维取向对破裂压力都有很大的影响。结果表明,定向纤维接枝的断裂强度至少是随机纤维接枝的两倍。结果表明,改变接枝材料对断裂强度也有影响。当按聚合物类型分析结果时,尽管PLA100_O样品在所有取向纤维样品组中具有最高的爆裂强度,但考虑径向弹性是确定候选血管移植物的较好方法。
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A PRELIMINARY STUDY EXAMINING THE BURST STRENGTH OF VASCULAR TUBULAR SCAFFOLDS
In this study, neat PCL, neat PLA and PLA/PCL (50/50) based tubular surfaces are produced by electrospinning to simulate the native blood vessel structure and to investigate the effects of both graft material and fiber orientation on burst strength. The burst pressure values of these vascular graft structures that designed with both randomly oriented fibers and oriented fibers, measured by a custom- burst pressure tester, and the results are compared. The results show that fiber orientation have a great influence on burst pressure, regardless of the type of biomaterial. It is determined that grafts with oriented fibers have at least twice the burst strength than those with random fibers. The findings indicate that changing the graft material has also an effect on burst strength. When the results are analyzed by polymer type, although the PLA100_O sample has the highest burst strength among all oriented fiber sample groups, it is better to determine the vascular graft candidate by taking into account radial elasticity.
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