A biomechanical international network for the assessment of tissue engineered blood vessels

L. Cymberknop, R. Armentano, D. Suarez Bagnasco, F. Montini Ballarin, G. Balay, C. Negreira, G. Abraham
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Abstract

Development of electrospun scaffolds for tissue engineering vascular grafts requires the integration of well differentiated and complementary disciplines. The aim of present work is to describe a cooperative experience in biomedical research developed between academic institutions of Argentina and Uruguay. Electrospinning technique, high resolution ultrasound in-vitro measurements and signal processing algorithms were implemented in order to characterize and improve the mechanical response of mono and bi-layered polymeric structures. Each stage of the process was defined based on the maximal capabilities and expertise of each laboratory, thus optimizing the available resources.
组织工程血管评估的生物力学国际网络
开发用于组织工程血管移植的电纺丝支架需要整合分化良好、互补的学科。本工作的目的是描述阿根廷和乌拉圭学术机构之间在生物医学研究方面的合作经验。采用静电纺丝技术、高分辨率超声体外测量和信号处理算法来表征和改善单层和双层聚合物结构的力学响应。过程的每个阶段都是根据每个实验室的最大能力和专业知识来定义的,从而优化可用资源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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