Journal
NEUROPATHOLOGY
Volume 29, Issue 3, Pages 248-257Publisher
WILEY
DOI: 10.1111/j.1440-1789.2008.00971.x
Keywords
bone marrow stromal cell; fibrin; scaffold; spinal cord injury; tissue engineering
Categories
Funding
- Ministry of Education, Science and Culture of Japan [15390426, 17390389, 18390387, 19390371]
- Grants-in-Aid for Scientific Research [15390426, 17390389, 19390371, 18390387] Funding Source: KAKEN
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Recent basic experiments have strongly suggested that cell transplantation therapy may promote functional recovery in patients with spinal cord injury (SCI). However, a safe and efficient transplantation technique still remains undetermined. This study, therefore, was aimed to clarify whether fibrin matrix could be a useful scaffold in bone marrow stromal cell (BMSC) transplantation for the injured spinal cord. To clarify the issue, three-dimensional structure of fibrin matrix was assessed and the green fluorescent protein (GFP)-expressing BMSC were cultured in fibrin matrix. The rats were subjected to spinal cord hemisection at T8 level, and the vehicle, BMSC or BMSC-fibrin matrix construct was implanted into the cavity. Neurologic function was serially evaluated. Using immunohistochemistry, we evaluated the survival, migration and differentiation of the transplanted cells at 4 weeks after transplantation. In the initial in vitro study, the BMSC could survive in fibrin matrix for 2 weeks. The animals treated with the BMSC-fibrin matrix construct showed significantly more pronounced recovery of neurologic function than vehicle- or BMSC-treated animals. Fibrin scaffold markedly improved the survival and migration of the transplanted cells. There was no significant difference in the percentage of cells doubly positive for GFP and microtubule-associated protein 2 between the animals treated with BMSC-fibrin matrix construct and those treated with BMSC, but a certain subpopulation of GFP-positive cells morphologically simulated the neurons in the animals treated with BMSC-fibrin matrix construct. These findings strongly suggest that fibrin matrix may be one of the promising candidates for a potential, minimally invasive scaffold for injured spinal cord, and that such strategy of tissue engineering could be a hopeful option in regeneration therapy for patients with SCI.
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