ABSTRACT
Objective·To investigate the effectiveness of nerve transfer in repairing defecation function after spinal cord injury by the pseudorabies virus (PRV) retrograde tracing. Methods·The spinal cords were transected between L6 and S1 nerve root in 20 rats. The nerve transferring surgery was then conducted in 10 rats (Group B) and the remaining rats were control (Group A). After six months, all rats were injected with 6 μL PRV, sacrificed after 3 d and perfused with paraformaldehyde. Spinal cords were then harvested and frozen sections were prepared for observation. Results·There was no detectable infection of PRV proximal to the injury level in Group A, while infected neurons proximal to the injury level were widely observed in Group B.Conclusion·Nerve transfer has potent effect on defecation reconstruction after spinal cord injury in rats. PRV retrograde tracing can prove the existence of new neuron pathway.
ABSTRACT
Objective·To investigate the effectiveness of nerve transfer in repairing defecation function after spinal cord injury by the pseudorabies virus (PRV) retrograde tracing. Methods·The spinal cords were transected between L6 and S1 nerve root in 20 rats. The nerve transferring surgery was then conducted in 10 rats (Group B) and the remaining rats were control (Group A). After six months, all rats were injected with 6 μL PRV, sacrificed after 3 d and perfused with paraformaldehyde. Spinal cords were then harvested and frozen sections were prepared for observation. Results·There was no detectable infection of PRV proximal to the injury level in Group A, while infected neurons proximal to the injury level were widely observed in Group B.Conclusion·Nerve transfer has potent effect on defecation reconstruction after spinal cord injury in rats. PRV retrograde tracing can prove the existence of new neuron pathway.
ABSTRACT
Two of the synaptic receptors involved in the regulation of micturition, P2X(3) receptor, which is operated by ATP, and vanilloid receptor 1 (VR1), which is operated by capsaicin, are regarded as newcomers. To investigate the possibility that these receptors act as therapeutic targets for treatment of an overactive bladder, we investigated their distribution and reciprocal relationship. Eight-week-old Sprague Dawley rats were injected with retrograde nerve tracer within the bladder wall, and 15 rats were injected with 0.5% acetic acid inside the bladder. After a week, the animals were killed, and their dorsal root ganglia (DRG) at the levels of L6 and S1 were harvested. Immunohistochemistry or Western blot analysis of P2X(3) and VR1 were performed on the DRG. The DRG neurons with afferent fibers from the bladder had increased expression of VR1 and downregulated P2X(3) receptors. The P2X(3) receptor and VR1 seemed to account for the important parts of the hypersensitivity of the inflammatory bladder. We conclude that the simultaneous modulations of both P2X(3) receptor and VR1 may have a synergic effect on the treatment of overactive bladder and may produce greater response rates.