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Multifunctional magneto-electric and exosome-loaded hydrogel enhances neuronal differentiation and immunoregulation through remote non-invasive electrical stimulation for neurological recovery after spinal cord injury

脊髓损伤 刺激 脊髓 外体 材料科学 医学 生物医学工程 神经科学 化学 心理学 微泡 小RNA 生物化学 基因
作者
Wubo Liu,Qiang Liu,Zeqin Li,Chunjia Zhang,Zehui Li,Yan Guo,Xin Xu,Xiaoxin Wang,Huayong Du,Zuliyaer Talifu,Yunzhu Pan,Xiaoxiong Wang,Jing Mao,Feng Gao,Degang Yang,Yan Yu,Xinyu Liu,Jianjun Li
出处
期刊:Bioactive Materials [Elsevier BV]
卷期号:48: 510-528 被引量:19
标识
DOI:10.1016/j.bioactmat.2025.02.034
摘要

Intervention in the differentiation of neural stem cells (NSCs) is emerging as a highly promising approach for the treatment of spinal cord injury (SCI). However, NSCs at the injury site often suffer from low survival and uncontrolled differentiation. Whereas electrical stimulation has proven effective in regulating the fate of NSCs and promoting tissue repair, however, conventional electrical stimulation therapy has failed to be widely applied due to challenges such as invasiveness and technical complexity. To overcome these limitations, we developed a biomimetic magneto-electric hydrogel incorporating Fe3O4@BaTiO3 core-shell nanoparticles and human umbilical mesenchymal stem cell exosomes (HUMSC-Exos) around the concept of constructing remote noninvasive electrical stimulation for the synergistic treatment of SCI. The Fe3O4@BaTiO3 is activated by the peripheral magnetic field to generate electrical stimulation, which, in conjunction with the synergistic effects of HUMSC-Exos, significantly alleviates the early inflammatory response associated with SCI and enhances the regeneration of newborn neurons and axons, thereby creating favorable conditions for functional recovery post-SCI. Our findings indicate that applying this magneto-exosome hydrogel in a rat model of SCI leads to substantial functional recovery. This innovative combination represents a promising therapeutic strategy for SCI repair.
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