Autologous intercostal nerve plus acidic fibroblast growth factor transplantation for the treatment of high-level spinal cord injury
10.3969/j.issn.1673-8225.2010.07.010
- VernacularTitle:自体肋间神经联合酸性成纤维细胞生长因子移植治疗高位脊髓损伤
- Author:
Mian GUO
;
Yongri ZHENG
;
Qingsong LI
;
Jianjiao WANG
;
Jiaxing SUN
;
Yunlong GE
;
Yan ZHAO
- Publication Type:Journal Article
- From:
Chinese Journal of Tissue Engineering Research
2010;14(7):1183-1186
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND: Acidic fibrobiast growth factor can regulate cell proliferation, migration, differentiation and survival, also can down-regulate the known inhibitor of axon regeneration, such as proteoglycan, help axons overcome these inhibitory factors, and have significant role on the regeneration of nerve fibers.OBJECTIVE: To study the feasibility and effect of the acidic fibroblast growth factor combined with peripheral nerve transplantation in the treatment of high-level spinal cord injury in rats.METHODS: A total of adult 108 female SD rats were randomly divided into autologous nerve group, autologous nerve combined .with acidic fibroblast growth factor group, and high-level spinal cord injury group. The rat T_(8-10) spinous process and lamina were bite, revealing dural sac, high-level spinal cord was resected at a horizon level, cutting 3 mm, no nerve fibers were confirmed to be attached under the microscope. In the autogenous nerve group and autologous nerve combined with acidic fibroblast growth factor group, bilateral the 8~(th) to 10~(th) pairs of intercostal nerves were harvested 2 cm, then cross-transplanted into high-level spinal cord defect (proximal white matter and distal gray matter, distal white matter and proximal gray matter), fibrin gel and fibrin gel containing acidic fibroblast growth factor were used respectively to fix the implanted intercostal nerve, followed by dural suture.High-level spinal cord transection group was subjected to exclusion between stumps. At 90 days postoperation, somatosensory evoked potential and motor evoked potential were used to test nerve electrophysiological recovery. At 76 days postoperation,biotinylated dextran amine anterograde tracing was applied to observe the motor conduction bundle recovery. At 60 days postoperation, hindlimb motor function recovery was assessed by BBB score.RESULTS AND CONCLUSION: The somatosensory and motor evoked potential waveforms were not elicited in rats of high-level spinal cord transaction group, but did elicit in autogenous nerve group and autologous nerve combined acidic fibroblast growth factor group. The average latency and amplitude of somatosensory and motor evoked potentials, as well as BBB scores in autologous nerve combined acidic fibrobiast growth factor group were significantly superior to autologous nerve group (P < 0.01).In the autogenous nerve group and autologous nerve combined acidic fibroblast growth factor group, many more biotinylated daxtran amine-positive nerve fibers passed in the damage zone, compared with high-level spinal cord transection group (P <0,01), the autologous nerve combined acidic fibrobiast growth factor group was more than autogenous nerve group (P < 0.01). It is indicated that autologous peripheral nerve graft acidic flbroblast growth factor can better restore the limb motor functions of rats after high-level spinal cord injury.
