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Tail nerve electrical stimulation promoted the efficiency of transplanted spinal cord-like tissue as a neuronal relay to repair the motor function of rats with transected spinal cord injury

脊髓 脊髓损伤 医学 后肢 移植 解剖 神经科学 生物 内科学
作者
Bi‐Qin Lai,Rongjie Wu,Weitao Han,Yu‐Rong Bai,Jialin Liu,Haiyang Yu,Shang‐Bin Yang,Laijian Wang,Jiale Ren,Ying Ding,Ge Li,Xiang Zeng,Yuan‐Huan Ma,Qi Quan,Lingyan Xing,Bin Jiang,Yaqiong Wang,Ling Zhang,Zhenghong Chen,Hongbo Zhang
出处
期刊:Biomaterials [Elsevier BV]
卷期号:297: 122103-122103 被引量:19
标识
DOI:10.1016/j.biomaterials.2023.122103
摘要

Following transected spinal cord injury (SCI), there is a critical need to restore nerve conduction at the injury site and activate the silent neural circuits caudal to the injury to promote the recovery of voluntary movement. In this study, we generated a rat model of SCI, constructed neural stem cell (NSC)-derived spinal cord-like tissue (SCLT), and evaluated its ability to replace injured spinal cord and repair nerve conduction in the spinal cord as a neuronal relay. The lumbosacral spinal cord was further activated with tail nerve electrical stimulation (TNES) as a synergistic electrical stimulation to better receive the neural information transmitted by the SCLT. Next, we investigated the neuromodulatory mechanism underlying the action of TNES and its synergism with SCLT in SCI repair. TNES promoted the regeneration and remyelination of axons and increased the proportion of glutamatergic neurons in SCLT to transmit brain-derived neural information more efficiently to the caudal spinal cord. TNES also increased the innervation of motor neurons to hindlimb muscle and improved the microenvironment of muscle tissue, resulting in effective prevention of hindlimb muscle atrophy and enhanced muscle mitochondrial energy metabolism. Tracing of the neural circuits of the sciatic nerve and tail nerve identified the mechanisms responsible for the synergistic effects of SCLT transplantation and TNES in activating central pattern generator (CPG) neural circuits and promoting voluntary motor function recovery in rats. The combination of SCLT and TNES is expected to provide a new breakthrough for patients with SCI to restore voluntary movement and control their muscles.
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