藻酸盐双网络水凝胶作为混合支架中 PEG 含量的物理化学效应

Ozgul Gok
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摘要

目的:本研究旨在制备一种双网络水凝胶,作为同时含有天然聚合物和合成聚合物的混合网络,以获得具有更强溶胀能力和可调机械及形态特性的支架。用不同比例的聚乙二醇(PEG)聚合物对物理交联的海藻酸盐水凝胶进行增强,这些聚合物通过紫外线照射和水溶性引发剂进行化学胶凝。 合成方法合成方法包括顺序交联法,通过仔细控制反应参数来实现混合结构,以模拟天然组织细胞外基质。通过傅立叶变换红外光谱(FT-IR)和扫描电子显微镜(SEM)系统地研究了水凝胶的化学成分和形态特征(如孔隙率)。此外,还评估了最终水凝胶中 PEG 含量(10%、20% 和 40%)对溶胀能力和流变特性的影响。 结果傅立叶变换红外光谱显示,制备的双网络水凝胶由天然海藻酸聚合物和合成 PEG 链组成。虽然含有 10%PEG 的水凝胶在溶胀能力方面与单独的海藻酸盐水凝胶没有明显差异,但增加 PEG 的用量会有改善作用。比较再力学研究表明,在海藻酸盐中引入共价交联的 PEG 网络可使存储模量和损失模量的交叉点增加近 12 倍,从而提供更坚硬的支架。此外,PEG 含量的增加也减小了 SEM 图像上的孔径,表明最终水凝胶结构中的交联点更多。 结论通过在物理交联的生物相容性海藻酸盐网络中引入越来越多的二甲基丙烯酸 PEG 链,成功制备了混合双网络水凝胶。PEG 链以其良好的水溶性而著称,它对最终水凝胶的溶胀能力和机械性能有更好的影响,同时还能提供可调的孔径。
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Physicochemical Effects of PEG content in Alginate-based Double Network Hydrogels as Hybrid Scaffolds
Purpose: This study aims to prepare a double-network hydrogels as hybrid networks bearing both natural and synthetic polymers to obtain scaffolds with increased swelling capacity and tunable mechanical and morphological properties. Physically cross-linked alginate hydrogel was reinforced with various ratios of Poly(ethylene glycol) (PEG) polymers which were chemically gellated via UV light exposure with a water soluble initiator. Method: The synthesis methodology involves a sequential crosslinking approach by carefully controlling the reaction parameters to achieve a hybrid structure to mimic the natural tissue extracellular matrix. Physicochemical properties of the resulting hydrogels were systematically investigated via Fourier-transform infrared spectroscopy (FT-IR) for chemical composition and Scanning Electron Microscopy (SEM) for their morphological features like porosity. Furthermore, the effect of PEG amount in the final hydrogel (10, 20 and 40%) on the swelling capacity was evaluated as well as the rheological properties. Results: Prepared double-network hydrogels were demonstrated to be composed of both natural alginate polymer and synthetic PEG chains in FT-IR spectrum. Although 10%PEG containing hydrogel was not significantly different in terms of swelling capacity from the alginate hydrogel alone, increasing PEG amount has an ameliorating effect. Comparative reological studies presented that introducing covalently cross-linked PEG network into alginate one increased crosspoint of storage and loss moduli almost 12 times more providing a stiffer scaffold. Also, increasing PEG content decreased the pore size on SEM images, indicating more crosslinking points in final hydrogel structure. Conclusion: Hybrid double-network hydrogels were successfully prepared by introducing increasing amounts of dimethacrylated PEG chains into the physically cross-linked biocompatible alginate network. Known as its good water solubility, PEG chains were shown to have a better effect on the swelling capacity and mechanical properties of the final hydrogel, together with providing tunable pore size.
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