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采用复合θ-凝胶和冷冻凝胶制造技术形成的 PVA-明胶水凝胶。

PVA-gelatin hydrogels formed using combined theta-gel and cryo-gel fabrication techniques.

机构信息

Department of Mechanical Engineering, College of Engineering and Mathematical Sciences, University of Vermont, Burlington, VT 05405, USA.

Department of Mechanical Engineering, College of Engineering and Mathematical Sciences, University of Vermont, Burlington, VT 05405, USA; Bioengineering Program, College of Engineering and Mathematical Sciences, University of Vermont, Burlington, VT 05405, USA; Department of Electrical and Biomedical Engineering, College of Engineering and Mathematical Sciences, University of Vermont, Burlington, VT 05405, USA; Materials Science Program, Graduate College, University of Vermont, Burlington, VT 05405, USA.

出版信息

J Mech Behav Biomed Mater. 2019 Apr;92:90-96. doi: 10.1016/j.jmbbm.2019.01.002. Epub 2019 Jan 7.

Abstract

Poly(vinyl alcohol) (PVA) is a synthetic, biocompatible polymer that has been widely studied for use in bioengineered tissue scaffolds due to its relatively high strength, creep resistance, water retention, and porous structure. However, PVA hydrogels traditionally exhibit low percent elongation and energy dissipation. PVA material and mechanical properties can be fine-tuned by controlling the physical, non-covalent crosslinks during hydrogel formation through various techniques; PVA scaffolds were modified with gelatin, a natural collagen derivative also capable of forming reversible hydrogen bonds. Blending in gelatin and poly(ethylene glycol) (PEG) with PVA prior to solidification formed a highly organized hydrogel with improved toughness and dynamic elasticity. Theta-gels were formed from the solidification of warm solutions and the phase separation of high molecular weight gelatin and PVA from a low molecular PEG porogen upon cooling. While PVA-gelatin hydrogels can be synthesized in this manner, the hydrogels exhibited low toughness with increased elasticity. Thus, theta-gels were additionally processed using cryo-gel fabrication techniques, which involved freezing theta-gels, lyophilizing and re-hydrating. The result was a stronger, more resilient material. We hypothesized that the increased formation of physical hydrogen bonds between the PVA and gelatin allowed for the combination of a stiffer material with energy dissipation characteristics. Rheological data suggested significant changes in the storage moduli of the new PVA-gelatin theta-cryo-gels. Elastic modulus, strain to failure, hysteresis and resilience were studied through uniaxial tension and dynamic mechanical analysis in compression.

摘要

聚乙烯醇(PVA)是一种合成的、生物相容性聚合物,由于其相对较高的强度、抗蠕变性、保水性和多孔结构,已被广泛研究用于生物工程组织支架。然而,PVA 水凝胶传统上表现出低伸长率和能量耗散。通过各种技术控制水凝胶形成过程中的物理、非共价交联,可以精细调整 PVA 材料和力学性能;通过将明胶(一种天然胶原衍生物,也能够形成可逆氢键)与 PVA 进行改性。在凝固前将明胶和聚乙二醇(PEG)与 PVA 混合,形成具有改善韧性和动态弹性的高度有序水凝胶。通过将温热溶液固化并在冷却时将高分子量明胶和 PVA 与低分子 PEG 致孔剂相分离,形成 theta 凝胶。虽然可以以这种方式合成 PVA-明胶水凝胶,但水凝胶的韧性较低,弹性增加。因此,通过冷冻 theta 凝胶、冷冻干燥和再水合等 cryo-gel 制造技术进一步处理 theta 凝胶。结果得到了一种更强韧、更有弹性的材料。我们假设 PVA 和明胶之间形成更多的物理氢键,允许将更硬的材料与能量耗散特性结合在一起。流变学数据表明新的 PVA-明胶 theta-cryo-gel 的储能模量发生了显著变化。通过单轴拉伸和压缩动态力学分析研究了弹性模量、断裂应变、滞后和弹性。

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