1.Two kinds of physiotherapy for the repair and regeneration of injured peripheral nerve
Jiliang LEI ; Jing ZHAO ; Liyuan YANG ; Ke WANG ; Qunyu PEI
Chinese Journal of Tissue Engineering Research 2005;9(18):256-257
BACKGROUND: The environmental change of regeneration of peripheral nerve fiber can accelerate the regeneration of nerve fiber and the recovery of nerve function. Physiotherapy can improve the local microcirculation of the injured area, and promote and stimulate the recovery course of trauma. Therefore, whether choosing different physiotherapies and controlling irradiation dose can speed up the regeneration of nerve fiber?OBJECTIVE: To observe the effects of different physiotherapies in promoting the regeneration of injured nerve fiber.DESIGN:Randomized grouping and controlled animal experiment.SETTING: Laboratory of Anthropotomy and Histo-Embryology Department,Peking University Health Science Center.MATERIALS: The experiment was conducted in the Laboratory of Anthropotomy and Histo-Embryology Department, Peking University Health Science Center, from September 2001 to September 2002. Fifteen adult male SD rats, weighting 185-220 g, were selected.INTERVENTIONS: The model of sciatic nerve injury was established and randomly assigned to 3 groups. Bio-spectrum group and infrared group with 5rats in each received the corresponding physical irradiation. Injury control group was given no irradiation. The slices of sciatic nerve at the operation side of the animals in the three groups were collected on day 14 after operation. The degeneration rate of the injured nerve fiber was observed under the optical microscope to make indirect assessment of the protective effect of physiotherapy after the nerve was injured.MAIN OUTCOME MEASURES: The degeneration rate of nerve fibers at the breakpoint and at 4 points near the spinal cord ( 1,2,3,4 mm) and away from the spinal cord( 1,2,3,4 mm).difference in the degeneration rate of nerve fibers at the breakpoint away from the spinal cord in bio-spectrum group and infrared group as compared with the degeneration rate of nerve fibers in bio-spectrum group(68% ) and infrared group(89% ) was obviously reduced and that in control group was the the spinal cord in the 3 groups showed decreasing trend: the closer to the spinal cord, the fewer the degenerative nerve fibers. The number of degenerative nerve fibers was the smallest in bio-spectrum group, second smallest in infrared group, and the largest in control group.CONCLUSION: The assisting physiotherapy can decrease the number of regenerative nerve fibers, thus promoting and accelerating their recovery. Irradiation with bio-spectrum equipment is more effective.
2.THE UP-REGULATED EXPRESSION OF HEAT-SHOCK-PROTEIN 27(Hsp27) IN INJURED RETINA GANGLION CELLS WITH METHYLPREDNISOLONE TREATMENT
Qunyu PEI ; Lei YANG ; Ke WANG ; Liyuan YANG ; Changman ZHOU ; Jiliang LEI
Acta Anatomica Sinica 1954;0(02):-
Objective To study methylprednisolone's effect of up-regulation of Hsp27 on provocation and enhancement of self-protection and self-repair to injured central nerves,and if the injured nerves can get protection in early period,and therefore benefit injured central nerves'survival and regeneration. Methods Optic nerve axotomy was used in the experiment.The animals survived for 4,7,14,21,28 days respectively after surgery with and without MP treatment.The retinas were taken out and cut,then the number and morphological changes of RGCs with Nissl staining and the expression of Hsp27(optic density) in ganglion cell layers with immunohistochemical staining were observed respectively.The data were analysed with SAS soft ware. Results The quantity of the surviving retina ganglion cells increased in the group with high-dose intravenous methylprednisolone treatment at 7th and 14th days(P