Mobilização neural em rato Wistar reverte comportamento e mudanças celulares que caracterizam a dor neuropática. / Neural mobilization reverses behavioral and cellular changes that characterize neuropathic pain in rats Wistar.

AUTOR(ES)
FONTE

IBICT - Instituto Brasileiro de Informação em Ciência e Tecnologia

DATA DE PUBLICAÇÃO

10/02/2012

RESUMO

The Neural Mobilization technique is a noninvasive method that has proved clinically effective in reducing pain sensitivity and consequently in improving quality of life after neuropathic pain. The present study examined the effects of Neural Mobilization (MOB) on pain sensitivity induced by chronic constriction injury (CCI) in rats. The CCI was performed on adult male rats, submitted thereafter to 10 sessions of MOB, each other day, starting 14 days after the CCI injury. Over the treatment period, animals were evaluated for nociception using behavior tests, such as tests for allodynia and thermal and mechanical hyperalgesia. At the end of the sessions, the nerve isquiatic and spinal cord were analyzed using Western Blot assays for neural growth factor (NGF) and protein zero (PO) and the dorsal root ganglia (DRG) were analyzed using Western Blot and immunohistochemistry assays for neural growth factor (NGF) and glial fibrillary acidic protein (GFAP). The results showed that MOB treatment induced an early reduction (in the second session) of the hyperalgesia and allodynia in CCI-injured rats, which persisted until the end of the treatment. On the other hand, only after the 4th session we observed a blockede of thermal sensitivity. Regarding cellular changes, we observed a increase of NGF and PO expression after MOB in the nerve isquiatic when compared to CCI animals. We also observed a decrease of NGF and GFAP expression after MOB in the DRG when compared to CCI animals. In spinal cord no observed statistically difference. Was observed these data provide evidence that MOB treatment reverses pain symptoms in CCI-injured rats and decreases the level of GFAP and NGF in DRG. In addition to promoting the regeneration of the isquiatic nerve due to increased local NGF and protein zero.

ASSUNTO(S)

animal behavior chronic pain comportamento animal dor crônica fator de crescimento neural de animal hiperalgesia hyperalgesia medula espinhal nerve growth factor animal ratos wistar spinal cord wistar rats

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