Behavioural evidence that systemic morphine may modulate a phasic pain-related behaviour in a rat model of peripheral mononeuropathy.

In a model of peripheral mononeuropathy produced by 4 ligatures around the sciatic nerve, we investigated the effects of various i.v. doses of morphine on the vocalization thresholds elicited by paw pressure and compared the effects obtained with the same doses in normal rats. In neuropathic rats, morphine (0.1 and 0.3 mg/kg) produced a significant analgesic effect on the lesioned hind paw, maximum at 15 min post injection with a recovery at 20-25 min. For doses of 0.6 and 1 mg/kg, a modification of the kinetics was observed, with maximum effect at 20-30 min post injection and a recovery at 50-80 min. An analgesic effect was also observed on the unlesioned side, significantly less potent than that observed on the lesioned paw. The effect of 1 mg/kg morphine was almost totally reversed by a 0.1 mg/kg dose of systemic naloxone. The effects induced by the successive doses of morphine on the lesioned paw appeared higher than in normal rats (maximum vocalization thresholds (% of control) following 1 mg/kg morphine (N = 12) were 193.92 +/- 6.57% versus 154 +/- 3.5% in normal rats N = 3), whereas they were comparable to those obtained from the sham-operated paw. The present data clearly show that morphine induces potent antinociceptive effects in a rat model of neuropathy, which seems to contradict the classical view that neuropathic pain is opioid resistant. Some possible pathophysiological mechanisms are discussed.