Local changes in vascular architecture following partial spinal cord lesion in the rat.

Lesions of the CNS induce a complex cascade of tissue reactions. The purpose of this study was to determine the response of the vasculature to partial spinal cord transection. Adult rat spinal cords were lesioned and then examined during acute, subacute, and chronic periods for the presence of endothelial cells and blood vessels at the lesion site. The association of endothelial cells and astrocytes was examined immunohistochemically (RECA-1 and glial fibrillary associated protein, respectively). During the first 48 h following an incision lesion of the dorsal spinal cord, the vasculature was significantly decreased, concurrently with the tissue loss due to primary and secondary degeneration. Subsequently, at 4 days postlesion, vasculature repair processes were evidenced by a significant increase in the number of vessels present at the lesion center. Blood vessels even formed in areas densely packed with macrophages and tissue debris. After 1 week, the number of blood vessels declined in the lesion center and at the place of the forming caverns. These results show significant initial attempts at repair of the vasculature which do not, however, lead to the restoration of a compact tissue and cannot prevent the subsequent formation of caverns.