Abstract: Objective To explore the application values of effect on the expression of growth associated protein-43 (GAP-43) and myelin basic protein(MBP) by electrical stimulation in different sites of spinal cord injured rats after the human umbilical cord blood stem cells transplantation. Methods In this study the subjects adopted are clean grade rats, which were performed with Allen's method by NYU blow device, resulting in SCI models. 192 rats successfully modeled were divided into groups according to the random table. Group A received electric stimulation in the scalp surface projection area of motor area: Group A₁ received electric stimulation and transplantation of umbilical cord blood stem cell, while Group A₂ only received electric stimulation; Group B received local electric stimulation at damaged site: Group B₁ received electric stimulation and transplantation of umbilical cord blood stem cell, while Group B₂ only received electric stimulation; Group C received electric stimulation in the scalp surface projection area of motor area and local electric stimulation at damaged site: Group C₁ received electric stimulation and transplantation of umbilical cord blood stem cell, while Group C₂ only received electric stimulation; Group D are just the SCI models: Group D₁ received transplantation of umbilical cord blood stem cell without electric stimulation, while Group D₂ neither received cell transplantation nor electric stimulation. The sacrifice time of rats was the 1st week, 2nd week, 3rd week, 4th week, 8th week, and 12th week after operation respectively. The distribution of the remained or regenerative neurons at damaged areas by corticospinal tract anterograde tracer with Biotinylated dextran amine (BDA), and we also detected the content changes of GAP-43, MBP and the MAB1281 specific expression of the human nucleus of human umbilical cord blood stem cells. Results 1). NYU is a blow device for Allen's rat model of SCI, which could quantify the crash potential energy, and gain a stable and repeated model with high successful rate. 2). At each time site in this study, the factors that benefit for the neurofunction restoration after electric stimulation in the microenvironment into which the stem cells have been transplanted are GAP-43 and MBP, and they are all positive; the effects of the combination of head acupuncture with body acupuncture are much better than single head acupuncture or body acupuncture. 3). At each time site in this study, the factors that benefit for the neurofunction restoration after injury are GAP-43 and MBP, and the effects of them are all positive, which do not depend on whether the stem cell transplantation has been done. Conclusion 1). After the stem cell transplantation have been done, the changes of the microenvironment develops in the direction of benefiting for restoring neurofunction, which means that stem cell transplantation can promote the restoration of neurofunction and the stem cell transplantation is successful in this study. 2). Electric stimulation is significantly positive for the factors (GAP-43, MBP) which benefit for restoring neurofunction in the microenvironment after stem cell transplantation, the effects of the combination of head acupuncture with body acupuncture is better than single head acupuncture or body acupuncture. The significantly positive effects of the electric stimulation on microenvironment after injuries are independent, which do not depend on whether the stem cell transplantation has been done. Electric stimulation and stem cell transplantation are significantly synergistic at the microenvironment.

Key words: acupuncture, stem cells transplantation, spinal cord injury, growth associated protein-43 (GAP-43), myelin basic protein(MBP)