RT Journal Article SR Electronic T1 Ketamine- and morphine-induced analgesia and catalepsy. I. Tolerance, cross-tolerance, potentiation, residual morphine levels and naloxone action in the rat. JF Journal of Pharmacology and Experimental Therapeutics JO J Pharmacol Exp Ther FD American Society for Pharmacology and Experimental Therapeutics SP 51 OP 57 VO 244 IS 1 A1 W D Winters A1 A J Hance A1 G G Cadd A1 D D Quam A1 J L Benthuysen YR 1988 UL http://jpet.aspetjournals.org/content/244/1/51.abstract AB The effects of ketamine and morphine on pain perception and catalepsy were compared in rats. Analgesia, as measured by the latency to withdrawal of the tail from a 55 degrees C water bath (tail-flick latency difference, TFLD), was produced by both ketamine and morphine, but at widely different doses, and in each case the effect was reversed by naloxone. Catalepsy, measured by the duration of loss of righting reflex (DLRR) in catatonic animals, was induced by larger doses of both ketamine and morphine and in each case was reduced by a larger dose of naloxone. DLRR and TFLD tolerance developed rapidly and with a similar time course after daily doses of ketamine or morphine. Rats tolerant to the DLRR effect of ketamine showed cross-tolerance to morphine. Rats tolerant to the DLRR effect of morphine did not show cross-tolerance to ketamine when administered the following day; instead, these rats showed potentiation of the ketamine-induced DLRR. The degree of potentiation noted 24 hr after a single or multiple daily doses of 45 mg/kg of morphine is the same as that seen when 2 mg/kg of morphine is given simultaneously with ketamine. The residual brain level of morphine 24 hr after 45 mg/kg is similar to the level 1 hr after a 2-mg/kg dose. The augmented ketamine response in morphine-tolerant rats is postulated to be a result of residual morphine still present in the brain 24 hr after the last DLRR-inducing dose of morphine.(ABSTRACT TRUNCATED AT 250 WORDS)