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基于聚乙二醇和聚(ε-赖氨酸)的用于医学应用的原位交联可生物降解水凝胶。

In Situ Crosslinked Biodegradable Hydrogels Based on Poly(Ethylene Glycol) and Poly(ε-Lysine) for Medical Application.

机构信息

School of Intelligence Engineering, Shandong Management University, Jinan 250357, China.

College of Chemistry, Chemical Engineering and Materials Science, Shandong Normal University, Jinan 250014, China.

出版信息

Molecules. 2024 Nov 18;29(22):5435. doi: 10.3390/molecules29225435.

Abstract

Hydrogels have emerged as promising biomaterials due to their excellent performance; however, their biocompatibility, biodegradability, and absorbability still require improvement to support a broader range of medical applications. This paper presents a new biofunctionalized hydrogel based on in situ crosslinking between maleimide-terminated four-arm-poly(ethylene glycol) (4-arm-PEG-Mal) and poly(ε-lysine) (ε-PL). The PEG/ε-PL hydrogels, named LG-n, were rapidly formed via amine/maleimide reaction by mixing 4-arm-PEG-Mal and ε-PL under physiological conditions. The corresponding dry gels (DLG-n) were obtained through a freeze-drying technique. H NMR, FT-IR, and SEM were utilized to confirm the structures of 4-arm-PEG-Mal and LG-n (or DLG-n), and the effects of solid content on the physicochemical properties of the hydrogels were investigated. Although high solid content could increase the swelling ratio, all LG-n samples exhibited a low equilibrium swelling ratio of less than 30%. LG-7, which contained moderate solid content, exhibited optimal compression properties characterized by a compressive fracture strength of 45.2 kPa and a deformation of 69.5%. Compression cycle tests revealed that LG-n demonstrated good anti-fatigue performance. In vitro degradation studies confirmed the biodegradability of LG-n, with the degradation rate primarily governing the drug (ceftibuten) release efficiency, leading to a sustained release duration of four weeks. Cytotoxicity tests, cell survival morphology observation, live/dead assays, and hemolysis tests indicated that LG-n exhibited excellent cytocompatibility and low hemolysis rates (<5%). Furthermore, the broad-spectrum antibacterial activity of LG-n was verified by an inhibition zone method. In conclusion, the developed LG-n hydrogels hold promising applications in the medical field, particularly as drug sustained-release carriers and wound dressings.

摘要

水凝胶因其优异的性能而成为有前途的生物材料;然而,它们的生物相容性、可生物降解性和可吸收性仍需要改进,以支持更广泛的医疗应用。本文提出了一种新的基于马来酰亚胺封端的四臂聚乙二醇(4-臂-PEG-Mal)和聚(ε-赖氨酸)(ε-PL)之间原位交联的生物功能化水凝胶。PEG/ε-PL 水凝胶命名为 LG-n,在生理条件下通过混合 4-臂-PEG-Mal 和 ε-PL 进行胺/马来酰亚胺反应快速形成。通过冷冻干燥技术获得相应的干凝胶(DLG-n)。通过 H NMR、FT-IR 和 SEM 确认了 4-臂-PEG-Mal 和 LG-n(或 DLG-n)的结构,研究了固含量对水凝胶物理化学性质的影响。尽管高固含量可以增加溶胀比,但所有 LG-n 样品的平衡溶胀比均低于 30%。含有中等固含量的 LG-7 表现出最佳的压缩性能,压缩断裂强度为 45.2 kPa,变形为 69.5%。压缩循环测试表明 LG-n 具有良好的抗疲劳性能。体外降解研究证实了 LG-n 的可生物降解性,降解速率主要控制药物(头孢布烯)的释放效率,导致持续释放时间为四周。细胞毒性试验、细胞存活形态观察、死活试验和溶血试验表明 LG-n 具有良好的细胞相容性和低溶血率(<5%)。此外,通过抑菌圈法验证了 LG-n 的广谱抗菌活性。总之,所开发的 LG-n 水凝胶在医学领域具有广阔的应用前景,特别是作为药物缓释载体和伤口敷料。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d200/11597298/ea10097ebde4/molecules-29-05435-g001.jpg

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