ROS-scavenging lipoic acid modified chitosan hydrogels with rapid photocrosslinked ability accelerates peripheral nerve regeneration
Chen Xianglong, Gao Ren, Liang Xinyue, Liu Kun, Wei Zhong, Wu Xiaopei, Goto Takashi, Xiong Chengjie, Xu Feng, Dai Honglian
Journal:Regenerative Biomaterials
IF:8.1
DOI:10.1093/rb/rbag068
PMID:42040237
Published:2026-04-03
research field:高分子科学神经再生生物材料生物医学工程组织工程
Abstract
Peripheral nerve injury (PNI) triggers excessive oxidative stress and inflammation that impede nerve regeneration, leading to target organ atrophy and incomplete functional recovery. Conventional drug-loaded nerve conduits release anti-inflammatory drugs sustainably via filled hydrogels, requiring a precisely engineered hydrogel systems to match drug release kinetics without impeding regenerating nerve tissue growth. Meanwhile, constructing complex conduit systems may introduce potential cytotoxic factors and induce aseptic inflammation via acidic degradation products. Herein, we fabricated a ROS-scavenging CS-LA/P(MMD-CL) composite nerve conduit with rapid photo-crosslinking (365 nm UV irradiation, photoinitiator-free) via integrating lipoic acid-modified chitosan (CS-LA) hydrogel into oriented P(MMD-CL) conduit. Disulfide bonds in CS-LA scavenged ROS to alleviate oxidative stress, modulate inflammatory factor expression and resolve excessive inflammation, while the oriented P(MMD-CL) provided physical support and directional guidance for axon growth. In vivo studies on SD rats revealed that CS-LA/P(MMD-CL) promoted nerve regeneration through enhancing cell proliferation and angiogenesis, improving maturity of regenerative peripheral nerve, mitigating gastrocnemius atrophy and promoting nerve function recovery (SFI: -77.51 ± 1.51), and exhibited great biosafety—no organ damage from degradation byproducts. This simple, multifunctional composite conduit effectively modulates the PNI microenvironment and promotes peripheral nerve regeneration, offering a promising strategy for PNI repair.
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