甲壳素
自愈水凝胶
复合数
纳米晶
材料科学
椎间盘切除术
复合材料
壳聚糖
化学
高分子化学
纳米技术
解剖
医学
腰椎
生物化学
作者
Mingzhi Liu,Zhiyong Cui,Derong Xu,Chenguang Liu,Chuanli Zhou
标识
DOI:10.1016/j.mtbio.2025.101537
摘要
Discectomy is a widely utilized approach for alleviating disc herniation; however, effective repair of postoperative annulus fibrosus (AF) defects remains a significant challenge. This study introduces a hydrogel patch with enhanced mechanical properties for AF repair fabricated using chitin (Ch), collagen (Col), and chitin nanocrystals (ChNCs) through a freeze-thaw cycling technique. The Ch and Col components constitute the matrix of the hydrogel patch, while uniformly dispersed ChNCs act as a nanofiller, markedly improving the mechanical performance (compression strain: 95 %; compression modulus: 0.27 MPa) of the resulting Ch/Col@ChNCs hydrogel patch. The patch demonstrates advantageous properties, including high porosity, superior water absorption, thermal stability, and biodegradability in simulated body fluid. In vitro assessments reveal excellent biocompatibility with AF cells and enhanced collagen deposition. Furthermore, in vivo studies confirm that the patch effectively repairs postoperative disc defects, exhibiting strong integration with surrounding tissues and facilitating the orderly regeneration of fibrous tissue. This innovative hydrogel patch, combining exceptional properties with a straightforward fabrication process, presents a viable strategy for advancing clinical biomaterials for postoperative AF repair.
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