Effects of macromolecule functionalization on the mechanical properties of PVA hydrogels

2021 IEEE UFFC Latin America Ultrasonics Symposium (LAUS) Pub Date : 2021-10-04 DOI:10.1109/LAUS53676.2021.9639180

Liliana Maria Arroyave Muñoz, S. E. Mira, L. Múnera, Claudia Patricia Ossa Orozco, M. B. Restrepo

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Abstract

Synthetic vascular grafts can be used to repair damaged vessels for cardiovascular diseases. Polyvinyl alcohol (PVA) hydrogels are promising materials for the manufacturing of cellularized synthetic vascular grafts. Previous studies have demonstrated that functionalization of PVA with macromolecules such as gelatin, collagen among others, increases cell adhesion to the hydrogels. In this study we evaluated the effect on mechanical properties of these macromolecules on PVA blocks and thin tubes. A 9% PVA solution mixed with 1% of macromolecules (gelatin, collagen and fibroin) was used to manufacture blocks and tubes of PVA. The mechanical properties were assessed using a shear wave elastography approach and the group velocity to compare between the different conditions. The results of this study demonstrated that macromolecules can be used to modulate the mechanical properties since they tend to increase the materials Young’s modulus. On the contrary, the use of stabilizers and crosslinking agents such as glutaraldehyde (Glut), HC1 and acetic acid (AA) showed a decrease in the Young’s modulus and group velocity in the blocks and tubes.

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高分子功能化对聚乙烯醇水凝胶力学性能的影响

人工血管移植可用于修复心血管疾病的受损血管。聚乙烯醇(PVA)水凝胶是一种很有前途的制造细胞化合成血管移植物的材料。先前的研究表明，PVA与大分子(如明胶、胶原蛋白等)的功能化，增加了细胞对水凝胶的粘附。在这项研究中，我们评估了这些大分子对PVA块和细管的力学性能的影响。9%的PVA溶液与1%的大分子(明胶，胶原蛋白和丝蛋白)混合用于制造PVA块和管。采用剪切波弹性学方法和群速度来比较不同条件下的力学性能。本研究结果表明，由于大分子倾向于增加材料的杨氏模量，因此可以用来调节材料的力学性能。相反，戊二醛(Glut)、盐酸(HC1)和乙酸(AA)等稳定剂和交联剂的使用使块体和管体中的杨氏模量和基团速度降低。

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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2021 IEEE UFFC Latin America Ultrasonics Symposium (LAUS)

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