坐骨神经
神经导管
材料科学
生物医学工程
脚手架
周围神经
周围神经损伤
羧甲基纤维素
再生(生物学)
体内
神经外膜修复
壳聚糖
电气导管
生物材料
神经损伤
神经生长因子
复合数
组织工程
化学
聚乳酸
作者
Kebi Li,Xiaopei Wu,Peijun Xiong,Hanping He,ZY Xia,Yang Zhou,Liang Zhao,Jie Li,Tao Liu,Hongwei Shi,Peihu Xu,Haixing Xu
摘要
Peripheral nerve injury (PNI) remains a major clinical challenge due to the limitations of autologous nerve grafting. Herein, a multifunctional composite nerve conduit was developed by integrating an oriented collagen-grafted polylactic acid (PLA) electrospun scaffold with a conductive and anti-inflammatory hydrogel to enhance peripheral nerve regeneration. The hydrogel was fabricated by chemically cross-linking carboxymethyl chitosan (CMCS) and sodium carboxymethyl cellulose (CMC-Na), incorporating polyaniline (PANI) to impart electrical conductivity and loading rhein (RH) for sustained anti-inflammatory release. The PLA conduit was further modified with collagen and loaded with nerve growth factor (NGF), forming a structurally guided dual-drug delivery system. The modified conduit exhibited improved hydrophilicity (water contact angle reduced from 107.7° to 68.9°) and enhanced mechanical properties (Young's modulus of 9.88 MPa). Sustained NGF and RH release reached 81.53% and 76.37% within 30 days, respectively, with stable degradation over 72 days. The conductive hydrogel displayed a uniform porous structure with high porosity (> 70%) and an electrical conductivity of 12.19 mS/cm. The electrical conductivity of the composite nerve conduit is 3.27 mS/cm. In vitro experiments demonstrated enhanced Schwann cell adhesion, neurite outgrowth, neuronal differentiation, anti-inflammatory activity, and responsiveness to electrical stimulation. In vivo studies using a rat sciatic nerve defect model confirmed significantly accelerated nerve regeneration. Overall, this electrically responsive, dual-drug-loaded hydrogel-filled nerve conduit represents a promising alternative to autologous nerve grafts for peripheral nerve repair.
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