Articles: peripheral-nerve-injuries.
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The paradoxical combination of sensory loss within the area where pain is felt together with pain evoked by non-noxious stimuli (allodynia) is a characteristic feature of neuropathic pain. This study examined the relationship between (mechanical and thermal) pain thresholds and dynamic and static hyperalgesia in 15 patients with traumatic nerve injury and brush-evoked pain. Sensory tests were carried out both in the allodynic skin area and in the unaffected contralateral mirror image skin. ⋯ There was no relationship between dynamic and static evoked hyperalgesia. These findings suggest a differential processing of repetitive thermal and mechanical stimuli in the central nervous system. Both dynamic and static mechanical hyperalgesia are maintained by activity in heat-sensitive nociceptors, but they are probably mediated by distinct mechanisms.
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Anesthesia and analgesia · Feb 1998
The effects of the alpha2-adrenergic agonist, dexmedetomidine, in the spinal nerve ligation model of neuropathic pain in rats.
Peripheral nerve injury may lead to neuropathic pain. Alpha2-adrenergic agonists acting in the descending inhibitory tracts of the spinal cord are effective in acute nociceptive, inflammatory, and, possibly, neuropathic pain. We studied the prevention and treatment of neuropathy with the selective alpha2-adrenergic agonist dexmedetomidine in male Sprague-Dawley rats with unilateral peripheral mononeuropathy resulting from tight ligation of the L5 and L6 spinal nerves. Rats with ligation injury developed mechanical and cold allodynia, but not heat hyperalgesia. Dexmedetomidine (120 microg/kg subcutaneously [S.C.] 30 min before the injury) did not attenuate mechanical or cold allodynia. Dexmedetomidine infusions (60 microg/d for 7 days after the injury, or 30 microg/d for 7 days started 14 days after the injury) did not attenuate mechanical or cold allodynia in the ipsilateral paw, but they increased mechanical allodynia during the latter treatment in the paw contralateral to the injury. Atipamezole (1 mg/kg S.C.) induced mechanical and cold allodynia in rats that had not developed allodynia in 14 days after the injury. In conclusion, although alpha2-adrenergic mechanisms are recognized as important in the development of neuropathic pain-like symptoms in this animal model, we found no favorable effect from systemic treatment with dexmedetomidine at tolerable doses. ⋯ We studied the prevention and treatment of nerve injury-induced pain with the alpha2-adrenergic agonist dexmedetomidine in an animal model. At tolerable doses, systemic dexmedetomidine neither prevented nor attenuated neuropathic pain behavior.
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The goals of the study were to investigate the value of intraoperative electrically evoked nerve action potentials (NAPs) in the surgical treatment of traumatic peripheral nerve injuries (nerve lesions in continuity). ⋯ In nerve lesions in continuity with complete loss of nerve function, intraoperative NAPs are able to detect axonotmetic lesions in regeneration. Thus, unnecessary further surgical procedures can be avoided. On the other end of the spectrum, no recordable NAP together with a caliber shift of the nerve (suggesting a neuroma in continuity) may facilitate the surgeon's decision for a grafting procedure without a time-consuming internal neurolysis. But there is also evidence from our data that not every nerve lesion in continuity without a NAP needs to be grafted.
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Peripheral nerve injury commonly leads to neuropathic pain states fostered, in part, by neuroimmunologic events. We used two models of neuropathic pain (L5 spinal nerve cryoneurolysis (SPCN) and chronic constriction injury (CCI)) to assess the role of spinal glial activation responses in producing pain behaviors. Scoring of glial responses subjectively encompassed changes in cell morphology, cell density and intensity of immunoreactivity with specific activation markers (OX-42 and anti-glial fibrillary acidic protein (GFAP) for microglia and astrocytes, respectively). ⋯ Perineural application of bupivacaine prior to SPCN prevented spinal microglial responses but not pain behaviors. Spinal astrocytic responses to SPCN were early, robust and not altered by bupivacaine. The current findings support the use of bupivacaine as a tool to suppress microglial activation and challenge the putative role of microglia in initiating or potentiating pain behaviors which result from nerve injury.
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Comparative Study
Differential activities of intrathecal MK-801 or morphine to alter responses to thermal and mechanical stimuli in normal or nerve-injured rats.
Nerve ligation injury in rats results in reduced nociceptive and non-nociceptive thresholds, similar to some aspects of clinical conditions of neuropathic pain. Since underlying mechanisms of hyperalgesia and allodynia may differ, the present study investigated the pharmacology of morphine and MK-801 in rats subjected to a tight ligation of the L5 and L6 nerve roots or to a sham-operation procedure. Response to acute nociception was measured by (a) withdrawal of a hindpaw from a radiant heat source, (b) withdrawal of the tail from a radiant heat source or (c) the latency to a rapid flick of the tail following immersion in water at different noxious temperatures. ⋯ I.t. morphine was also active in the tail-flick tests with decreased potency in nerve-injured animals and, at some stimulus intensities, with a decreased efficacy as well. These data emphasize the distinction between the inactivity of morphine to suppress mechanical withdrawal thresholds (as elicited by von Frey filaments) and the activity of this compound to block the response to an acute thermal nociceptive stimulus in sham-operated or nerve-injured rats. It appears that nerve ligation injury produces a thermal allodynia/hyperalgesia which is likely dependent upon opioid-sensitive small-diameter primary afferent fibers and a mechanical allodynia which may be largely independent of small-fiber input.