Neurological research
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Despite the common belief that multiple sclerosis (MS) is a painless disease, several studies contradict this. There are a significant number of MS patients who actually suffer from painful conditions such as central and peripheral neuropathy, migraines, trigeminal neuralgia, painful tonic spasms, complex regional pain syndrome, glossopharyngeal neuralgia, and transverse myelitis. In addition, MS relapses are usually painful with many patients complaining of paroxysmal dystonia and neuropathic pain during these episodes. ⋯ Currently, various pharmacological agents such as antiepielptics, non-steroidal anti-inflammatory agents, and even corticosteroids are used to suppress various painful conditions associated with MS. Non-pharmacological procedures such as massage therapy have also been used in the treatment of MS patients. The authors present a review of recent findings in pathophysiology and management of pain in MS patients.
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Neurological research · Nov 2012
Effect of periaqueductal gray melanocortin 4 receptor in pain facilitation and glial activation in rat model of chronic constriction injury.
Substantial evidence shows that spinal melanocortin 4 receptor (MC4R) may participate in regulation of central sensitization and chronic pain condition induced by peripheral nerve injury. Periaqueductal gray (PAG) is an important component of descending pain facilitatory system and takes part in spinal nociceptive information. This research will choose PAG to discuss the effect of MC4R in pain facilitation induced by chronic constriction injury (CCI) and further discuss its effect in glial activity and inflammatory factor levels in nerve injury. ⋯ This research suggests that activation of MC4R in PAG after peripheral nerve injury participates in pain facilitation by regulating the glial activation and inflammatory cytokines secretion.
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Neurological research · Nov 2012
Effects of repeated crush injuries on motor functional recovery of the sciatic nerve.
The present study was conducted to examine whether repeated crush injuries have significant effects on motor functional recovery of peripheral nerves. ⋯ These results, which contradict those of a previous study that reported early functional recovery, indicate that repeated crush injuries inhibit motor functional recovery of the damaged sciatic nerve, as evidenced by delayed and incomplete regeneration, atrophied muscle fibers, and delayed reinnervation.