冷冻铸造胶原支架的拉伸性能:加工条件如何影响干燥和完全水合状态下的结构和性能。

Isabella Caruso, Kaiyang Yin, P. Divakar, U. Wegst
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引用次数: 0

摘要

定向冷冻铸造生物聚合物支架的拉伸性能很少被报道,尽管从基础科学的角度来看,它们是令人感兴趣的,并且在神经再生支架或用作输尿管支架等应用中至关重要。本研究的重点是在两个冷冻方向(纵向和径向)上以两种不同的冷却速率(10°C/min和1°C/min)进行胶原支架冷冻铸造。报道了通过扫描电子显微镜对干燥支架进行系统结构表征的结果,以及干燥和完全水合支架在张力下的机械表征。为了比较纵向和径向冷冻铸造胶原支架的拉伸性能及其压缩性能,获得了系统的结构-性能-加工相关性。对本研究中在张力下以及在两份早期报告中在胶原蛋白和壳聚糖的压缩下获得的相关性进行了整理,不仅能够为生物医学应用定制冷冻铸造生物聚合物支架,而且还为“光滑”和“原纤维”生物聚合物定向固化过程中支架和细胞壁结构形成的异同提供了新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Tensile properties of freeze-cast collagen scaffolds: How processing conditions affect structure and performance in the dry and fully hydrated states.
Tensile properties of directionally freeze-cast biopolymer scaffolds are rarely reported, even though they are of interest from a fundamental science perspective and critical in applications such as scaffolds for the regeneration of nerves or when used as ureteral stents. The focus of this study is on collagen scaffolds freeze-cast with two different applied cooling rates (10 °C/min and 1 °C/min) in two freezing directions (longitudinal and radial). Reported are the results of a systematic structural characterization of dry scaffolds by scanning electron microscopy and the mechanical characterization in tension of both dry and fully hydrated scaffolds. Systematic structure-property-processing correlations are obtained for a comparison of the tensile performance of longitudinally and radially freeze-cast collagen scaffolds with their performance in compression. Collated, the correlations, obtained both in tension in this study and in compression for collagen and chitosan in two earlier reports, not only enable the custom-design of freeze-cast biopolymer scaffolds for biomedical applications but also provide new insights into similarities and differences of scaffold and cell-wall structure formation during the directional solidification of "smooth" and "fibrillar" biopolymers.
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