机译:培养FGF13的慢病毒通过稳定微管和改善线粒体功能,通过稳定脊髓损伤并改善线粒体功能来增强轴突再生
Wenzhou Med Univ Dept Orthopaed Affiliated Hosp 2 Wenzhou Zhejiang Peoples R China;
Wenzhou Med Univ Dept Orthopaed Affiliated Hosp 2 Wenzhou Zhejiang Peoples R China;
Wenzhou Med Univ Dept Orthopaed Affiliated Hosp 2 Wenzhou Zhejiang Peoples R China;
Wenzhou Univ Inst Life Sci Wenzhou Zhejiang Peoples R China;
Wenzhou Med Univ Sch Pharmaceut Sci Mol Pharmacol Res Ctr Wenzhou Zhejiang Peoples R China;
Wenzhou Med Univ Dept Orthopaed Affiliated Hosp 2 Wenzhou Zhejiang Peoples R China;
Wenzhou Med Univ Dept Orthopaed Affiliated Hosp 2 Wenzhou Zhejiang Peoples R China;
Wenzhou Med Univ Sch Pharmaceut Sci Mol Pharmacol Res Ctr Wenzhou Zhejiang Peoples R China;
Wenzhou Med Univ Sch Pharmaceut Sci Mol Pharmacol Res Ctr Wenzhou Zhejiang Peoples R China;
Wenzhou Med Univ Cixi Peoples Hosp Dept Neurosurg Ningbo Zhejiang Peoples R China;
Wenzhou Med Univ Sch Pharmaceut Sci Mol Pharmacol Res Ctr Wenzhou Zhejiang Peoples R China;
Wenzhou Univ Inst Life Sci Wenzhou Zhejiang Peoples R China;
Wenzhou Med Univ Dept Orthopaed Affiliated Hosp 2 Wenzhou Zhejiang Peoples R China;
Wenzhou Med Univ Dept Orthopaed Affiliated Hosp 2 Wenzhou Zhejiang Peoples R China;
axon regeneration; fibroblast growth factor 13; microtubule; mitochondria; spinal cord injury;
机译:培养FGF13的慢病毒通过稳定微管和改善线粒体功能,通过稳定脊髓损伤并改善线粒体功能来增强轴突再生
机译:二甲双胍通过抑制氧化应激和稳定微管损伤后促进脊髓损伤后的轴突再生
机译:稳定微管可减少疤痕并在脊髓损伤后引起轴突再生
机译:脊髓脊柱损伤驻留研究综合奖:使用可生物降解的聚合物植入物的受损脊髓的手术修复,以促进轴突再生
机译:嗅觉鞘细胞增强神经突生长和脊髓损伤后轴突再生的机制。
机译:可注射的肝素-皂石水凝胶桥FGF4通过稳定微管并改善线粒体功能来治疗脊髓损伤
机译:微管稳定可减少疤痕并在脊髓损伤后引起轴突再生