PURPOSE: We investigated functional recovery of the lower urinary system in rats with spinal cord injury after transplanting neuronal restricted precursors/glial restricted precursors or neural cells derived from bone marrow stromal cells into the injured area of the spinal cord. MATERIALS AND METHODS: A total of 30 rats underwent experimentation in 4 groups, including group 1--sham operation, group 2--spinal cord injury plus neuronal restricted precursor/glial restricted precursor transplantation, group 3--spinal cord injury plus bone marrow stromal cell transplantation and group 4--spinal cord injury control. All rats in the 4 groups were investigated urodynamically and sacrificed on day 28 after transplantation. The cells transplanted into the injured spinal cord underwent histological investigation. RESULTS: Transplanted cells (neuronal and glial restricted precursors, and bone marrow stromal cells) were found to maintain a presence in the injured spinal cord area. Baseline pressure, maximum capacity, mean uninhibited contraction amplitude, mean voiding pressure, voided volume and post-void residual volume were significantly better in groups 2 and 3 than in group 4, while baseline pressure in group 2 was better than that in group 3. We found no significant difference among the groups according to mean uninhibited contraction frequency. CONCLUSIONS: Although neuronal/glial restricted precursor transplanted rats seemed to have more improvement, all rats in groups 2 and 3 showed some significant improvement in lower urinary system function. On the other hand, the level of this improvement was far from complete functional recovery.
PURPOSE: We investigated functional recovery of the lower urinary system in rats with spinal cord injury after transplanting neuronal restricted precursors/glial restricted precursors or neural cells derived from bone marrow stromal cells into the injured area of the spinal cord. MATERIALS AND METHODS: A total of 30 rats underwent experimentation in 4 groups, including group 1--sham operation, group 2--spinal cord injury plus neuronal restricted precursor/glial restricted precursor transplantation, group 3--spinal cord injury plus bone marrow stromal cell transplantation and group 4--spinal cord injury control. All rats in the 4 groups were investigated urodynamically and sacrificed on day 28 after transplantation. The cells transplanted into the injured spinal cord underwent histological investigation. RESULTS: Transplanted cells (neuronal and glial restricted precursors, and bone marrow stromal cells) were found to maintain a presence in the injured spinal cord area. Baseline pressure, maximum capacity, mean uninhibited contraction amplitude, mean voiding pressure, voided volume and post-void residual volume were significantly better in groups 2 and 3 than in group 4, while baseline pressure in group 2 was better than that in group 3. We found no significant difference among the groups according to mean uninhibited contraction frequency. CONCLUSIONS: Although neuronal/glial restricted precursor transplanted rats seemed to have more improvement, all rats in groups 2 and 3 showed some significant improvement in lower urinary system function. On the other hand, the level of this improvement was far from complete functional recovery.
Authors: Yvette S Nout; Esther Culp; Markus H Schmidt; C Amy Tovar; Christoph Pröschel; Margot Mayer-Pröschel; Mark D Noble; Michael S Beattie; Jacqueline C Bresnahan Journal: Exp Neurol Date: 2010-10-30 Impact factor: 5.330