Efeitos do transplante autólogo de células monocelulares da medula óssea após lesão incompleta da medula espinhal de ratos adultos

Spinal cord injury (SCI) causes permanent loss of neurological function below the level of injury, generating social and psychological physical consequences in patients. The pathophysiology of SCI involves complex processes, such as hemorrhage, excitotoxicity and inflammation, mainly generated by microglial cells. Despite advanced knowledge of pathological mechanisms, effective and approved therapeutic strategies for the treatment of lesions and their consequences are still lacking without serious adverse effects. Cell therapy may represent a good therapeutic strategy because it demonstrates good results in the modulation of the inflammatory environment of the lesion and by probable mechanisms of differentiation. In the present study, we investigated the action of bone marrow mononuclear cells (BMMC) in incomplete lesions (hemisection to the right of the spinal cord, T8-T9 segment) after 42 days of injury (chronic lesion). The cells were from the injured animal itself (autologous transplantation) and the transplantation was intramedullary, i.e. the cells were inserted near the site of the lesion. In the present study, the functional effects of transplantation were investigated through the BBB scale (Basso, Beatie and Bresnahan), which allows the motor function of the hind legs of the animals to be graded. The anti-inflammatory effects of BMMC were also investigated. Histological and immunohistochemical techniques using Cresila Violet staining and anti-ED-1 (microglial marker / activated macrophages) and anti-GFAP (fibrillar astrocyte marker) antibodies were used. Qualitative and quantitative analyzes were performed. For quantitative analysis, the number of field activated astrocytes and macrophages / microglia were counted using binocular microscope with counting gradient (0.0625mm2) in a 40x objective. The counting averages and the standard deviations obtained were plotted in Cartesian coordinates. The counting was as follows: on the right side of the spinal cord (lesion side) and three fields per medullary ...