Articles: hyperalgesia.
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Controlled Clinical Trial
Influence of heterotopic noxious conditioning stimulation on spontaneous pain and dynamic mechanical allodynia in central post-stroke pain patients.
In 10 patients with central post-stroke pain (CPSP), the influence of ischemia-induced heterotopic noxious conditioning stimulation (HNCS) on the intensity of spontaneous ongoing- and brush-evoked pain was examined. In addition, the modulating effect of ongoing pain and HNCS on pain sensitivity in a remote pain-free area was explored. A semi-quantitative brushing technique was employed in combination with a computerized visual analogue scale (VAS) to monitor the allodynic percept over time, by calculating the area under the VAS curve as the total brush-evoked pain intensity. ⋯ During HNCS, higher pressure pain thresholds were demonstrated in patients and controls alike (P<0.001), whereas in controls only decreased sensitivity to suprathreshold pressure pain was found (P<0.05). Lack of influence from HNCS on ongoing- and brush-evoked pain on a group level, indicates inability of modulation from endogenous pain controlling systems on nociceptive activity generated in the brain. Increased pressure pain sensitivity at baseline suggests alteration in corticofugal control of nociceptive sensitivity due to the brain lesion, whereas patients during HNCS seemed to activate modulatory systems interacting with nociceptive input from the spinal level equal to controls.
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We examined the possible involvement of spontaneous on-going pain in the rat chronic constriction injury (CCI) model of neuropathic pain. ⋯ The present findings suggest that CCI-induced weight bearing deficit is not a consequence of mechanical allodynia, but is attributable to spontaneous on-going pain. The rat CCI model of neuropathic pain thus represents both spontaneous on-going pain and mechanical allodynia.
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We previously demonstrated that ultra-low dose naloxone restores the antinociceptive effect of morphine in rats with pertussis toxin (PTX)-induced thermal hyperalgesia by reversing the downregulation of glutamate transporter (GT) expression and suppressing spinal neuroinflammation. In the present study, we examined the underlying mechanisms of this anti-inflammatory effect in PTX-treated rats, particularly on the expression of GTs. Male Wistar rats were implanted with an intrathecal catheter and, in some cases, with a microdialysis probe. ⋯ Our results showed that PTX injection induced activation of microglia and a significant increase in P-p38 MAPK expression in the spinal cord. Ultra-low dose naloxone plus morphine significantly inhibited the effect of PTX on P-p38 MAPK expression in the spinal cord, while the p38 MAPK inhibitor SB203580 attenuated the PTX-induced mechanical allodynia, thermal hyperalgesia, increase in spinal cerebrospinal fluid excitatory amino acids, and downregulation of GTs. These results show that the restoration of the antinociceptive effect of morphine and GT expression in PTX-treated rats by ultra-low dose naloxone involves suppression of the p38 MAPK signal transduction cascade.
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The present study investigated the effects of systemic administration of dexmedetomidine, a selective alpha2 adrenergic receptor (alpha2AR) agonist, and gabapentin either alone or in combination on thermal hyperalgesia evoked by ankle joint inflammation. Monoarthritis of rat ankle joint was induced by an intra-articular injection of Complete Freund's Adjuvant (CFA). The paw withdrawal latency (PWL) from a thermal stimulus was measured in awake rats. ⋯ The PWLs of the non-injected and normal saline (NS)-injected hindpaws were not significantly affected by the two agents at the most doses tested except the highest dose of dexmedetomidine (20 microg/kg). Although low dose of dexmedetomidine (2.5 microg/kg) or gabapentin (25 mg/kg) alone did not affect or lightly increased PWLs of the hindpaw ipsilateral to CFA-injected joint, a combination of dexmedetomidine and gabapentin (2.5 microg/kg+25 mg/kg, or 5 microg/kg+50 mg/kg) significantly reversed CFA-induced thermal hyperalgesia for 60 min without sedation/motor impairment. These results provide the first identification that co-application of dexmedetomidine and gabapentin may synergistically antagonize inflammatory pain, and this might prove to be beneficial in the treatment of arthritic pain.
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Intense stress and fear have long been known to give rise to a suppression of pain termed "stress-induced analgesia", mediated by brainstem pain-modulating circuitry, including pain-inhibiting neurons of the rostral ventromedial medulla. However, stress does not invariably suppress pain, and indeed, may exacerbate it. Although there is a growing support for the idea of "stress-induced hyperalgesia", the neurobiological basis for this effect remains almost entirely unknown. ⋯ In addition to the expected increases in body temperature and heart rate, disinhibition of the DMH induced a robust activation of ON-cells, suppression of OFF-cell firing and behavioral hyperalgesia. Blocking ON-cell activation prevented hyperalgesia, but did not interfere with DMH-induced thermogenesis or tachycardia, pointing to differentiation of neural substrates for autonomic and nociceptive modulation within the RVM. These data demonstrate a top-down activation of brainstem pain-facilitating neurons, and suggest a possible neural circuit for stress-induced hyperalgesia.