Intracerebroventricular micro-injections of non-steroidal anti-inflammatory drugs abolish reperfusion hyperalgesia in the rat's tail.

Prostaglandins are mediators of reperfusion hyperalgesia; their site of action may be in the periphery, in the central nervous system, or both. We have investigated whether prostaglandins play a role in the central nervous system during reperfusion hyperalgesia, by intracerebroventricular (i.c.v.) micro-injection of non-steroidal anti-inflammatory drugs (NSAID), to inhibit local prostanoid synthesis. We induced tail ischaemia in conscious rats by applying an inflatable cuff at the base of the tail. The cuff was released at the first signs of co-ordinated escape behaviour. Responses to a noxious thermal stimulus were assessed, by measuring tail flick latency following immersion of the tail in water at 49 degrees C, prior to and immediately after release of the tourniquet. Tail flick latency decreased significantly following ischaemia, that is there was post-ischaemic reperfusion hyperalgesia. Intracerebroventricular micro-injection of NSAID prior to applying the tourniquet had no effect on the co-ordinated escape behaviour during ischaemia or on the tail flick latency after application of a sham tourniquet (uninflated cuff). However all the drugs abolished the hyperalgesia evident during reperfusion. Doses required to abolish hyperalgesia were 0.001 mg/kg indomethacin, 0.08 mg/kg dipyrone, 0.09 mg/kg ibuprofen, 0.2 mg/kg diclofenac sodium and 0.2 mg/kg paracetamol. These doses are 2-3 orders of magnitude less than those necessary to abolish reperfusion hyperalgesia when the same drugs are administered systemically. Our results indicate that the development of reperfusion hyperalgesia of the rat's tail depends on the synthesis of prostanoids within the central nervous system.

Role of N-methyl-D-aspartate and opiate receptors in nociception during and after ischaemia in rats.

We have investigated the effects of systemic administration of two N-methyl-D-aspartate (NMDA) receptor antagonists and two opiate agonists on nociception during and after tail ischaemia in conscious rats. The two NMDA receptor antagonists, D-2-amino-5-phosphonovalerate (APV) and ketamine hydrochloride, did not alter tail flick latencies in rats not subjected to ischaemia but inhibited post-ischaemic hyperalgesia (PIH) in a dose-dependent manner. Neither of these agents impaired motor function of the rats, as assessed by rotarod performance, suggesting a purely sensory antinociceptive effect. The antinociceptive effect of APV during reperfusion following ischaemia was not antagonised by the mu-opiate receptor antagonist naloxone (1 mg/kg). The two opiate receptor agonists, morphine and pethidine, increased tail flick latencies in rats not subjected to ischaemia, inhibited PIH in a dose-dependent manner, and also caused significant motor malfunction, all in naloxone-reversible fashion. We conclude that the role of the NMDA receptor in mediating afferent nociceptive traffic is confined to its involvement in neuronal events mediating hyperalgesia.