Pain
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Comparative Study
Local interactions between anandamide, an endocannabinoid, and ibuprofen, a nonsteroidal anti-inflammatory drug, in acute and inflammatory pain.
Anandamide, an endocannabinoid, is degraded by the enzyme fatty acid amide hydrolase which can be inhibited by nonsteroidal anti-inflammatory drugs (NSAIDs). The present work was designed to study the peripheral interactions between anandamide and ibuprofen (a non-specific cyclooxygenase inhibitor) in the rat formalin test. We first determined the ED50 for anandamide (0.018 microg +/- 0.009), ibuprofen (0.18 microg +/- 0.09), and their combination (0.006 microg +/- 0.002). ⋯ In conclusion, locally (hind paw) injected anandamide, ibuprofen or combination thereof decreased pain behavior in the formalin test. The combination of anandamide with ibuprofen produced synergistic antinociceptive effects involving both cannabinoid CB1 and CB2 receptors. Comprehension of the mechanisms involved needs further investigation.
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Although peripheral nerve function is strongly dependent on energy stores, the role of the mitochondrial electron transport chain, which drives ATP synthesis, in peripheral pain mechanisms, has not been examined. In models of HIV/AIDS therapy (dideoxycytidine), cancer chemotherapy (vincristine), and diabetes (streptozotocin)-induced neuropathy, inhibitors of mitochondrial electron transport chain complexes I, II, III, IV, and V significantly attenuated neuropathic pain-related behavior in rats. While inhibitors of all five complexes also attenuated tumor necrosis factor alpha-induced hyperalgesia, they had no effect on hyperalgesia induced by prostaglandin E2 and epinephrine. ⋯ Neither of these inhibitors, however, affected tumor necrosis factor alpha, prostaglandin E2 or epinephrine hyperalgesia. These experiments demonstrate a role of the mitochondrial electron transport chain in neuropathic and some forms of inflammatory pain. The contribution of the mitochondrial electron transport chain in neuropathic pain is ATP dependent.
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Controlled Clinical Trial
Methadone maintenance patients are cross-tolerant to the antinociceptive effects of very high plasma morphine concentrations.
Opioid dependent patients require higher than normal doses of opioid analgesics. However, this regimen has not been formally tested. This study utilised a double-blind placebo-controlled design to examine antinociceptive responses to saline and pseudo-steady-state plasma morphine concentrations (173+/-11 (mean+/-SEM), range 106-305 ng/ml) in 18 methadone participants in three stable, once daily methadone dose ranges 11-45 mg (n=6), 46-80 mg (n=6), 81-115 mg (n=6) and 10 controls. ⋯ On saline days, rising methadone concentrations significantly (P<0.01) increased cold pressor pain detection threshold by 32+/-6% (range 1-81%) and cold pressor pain tolerance by 23+/-6% (range -32% to 56%). Methadone maintained patients are hyperalgesic and cross-tolerant to the antinociceptive effects of very high plasma morphine concentrations. While even higher morphine doses may achieve some pain relief, this may be at the cost of unacceptable respiratory depression.
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Controlled Clinical Trial
Evidence of focal small-fiber axonal degeneration in complex regional pain syndrome-I (reflex sympathetic dystrophy).
CRPS-I consists of post-traumatic limb pain and autonomic abnormalities that continue despite apparent healing of inciting injuries. The cause of symptoms is unknown and objective findings are few, making diagnosis and treatment controversial, and research difficult. We tested the hypotheses that CRPS-I is caused by persistent minimal distal nerve injury (MDNI), specifically distal degeneration of small-diameter axons. ⋯ Overall, control subjects had no painful-site neurite reductions (P=1.00), suggesting that pain, disuse, or prior surgeries alone do not explain CRPS-associated neurite losses. These results support the hypothesis that CRPS-I is specifically associated with post-traumatic focal MDNI affecting nociceptive small-fibers. This type of nerve injury will remain undetected in most clinical settings.