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NeuroRegen scaffold transplantation brings hope to spinal cord injury patients

NeuroRegen scaffold transplantation brings hope to spinal cord injury patients

A joint group of Chinese scientists has recently confirmed the safety and preliminary effective of NeuroRegen Scaffold transplantation for spinal cord injury repair. Results were published in Science China Life Sciences.

This group, led by Dai Jianwu’s team from the Institute of Genetics and Developmental biology of the Chinese Academy of Sciences, in collaboration with Prof. Zhang Sai’s group from the Chinese People’s Armed Police Forces, has developed a novel linear-ordered collagen scaffold called the NeuroRegen Scaffold, which was able to guide neurite growth along its fibers and provided a “bridge” for spinal cord nerve regeneration.

Spinal cord injury (SCI) is a serious central nerve injury, which leads to partial or complete loss of sensory and motor functions below the injury level. After SCI, the primary injury and its secondary reaction lead to hemorrhage, immune reactions, cell death, and scar formation, and an inhibitory environment eventually develops in response to the injury, which inhibits neural regeneration.

For patients with complete SCI, the sensory and motor functions below the injury level are completely lost and hardly recovered.

In this study, when the researchers transplanted these functional biomaterials along with neurotrophic factors or stem cells into rat, canine or monkey models of complete transection SCI, they found reduced formation of cystic cavity and reduced deposition of regeneration inhibitory molecules at the injury site, eventually promoting recovery of motor function.

Based on the preclinical studies, the first clinical research on NeuroRegen Scaffold transplantation for the treatment of complete SCI patients began in January 2015.

Fifteen patients with acute complete SCI and 51 patients with chronic complete SCI were followed up for 2-5 years. No serious adverse events related to functional scaffold transplantation were observed. Among the patients with acute SCI, five patients achieved expansion of their sensory positions and six patients recovered sensation in the bowel or bladder.

Additionally, four patients regained voluntary walking ability accompanied by reconnection of neural signal transduction. Among the 51 chronic complete patients, 16 patients achieved expansion of their sensation level and 30 patients experienced enhanced reflexive defecation sensation or increased skin sweating below the injury site. Nearly half of the patients with chronic cervical SCI developed enhanced finger activity, and some patients showed the expansion of motor evoked potential spinal cord segments.

Further analysis found that the recovery of sensory function was related to age, younger patients might be more likely to recover sensation after surgery.

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