A method for evaluating analgesic agents in rats
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NalBzoH (6-desoxy-6-benzoylhydrazido-N-allyl-14-hydroxydihydronomorphin one) is a novel opiate with potent actions at both mu and kappa receptors. Analgesic studies in mice examining increasing doses of NalBzoH with a fixed dose of morphine revealed a biphasic curve. NalBzoH at doses as low as 1 microgram/kg partially antagonized morphine analgesia. Higher NalBzoH doses continued to inhibit morphine analgesia in a dose-dependent manner, with the 1-mg/kg dose antagonizing completely morphine analgesia. As the NalBzoH dose increased beyond 1 mg/kg analgesia returned. NalBzoH also prduced a similar analgesic response when administered alone in mice and also was active in rats. NalBzoH had excellent p.o. activity, with an analgesic potency in mice equivalent to s.c. administration. Naloxone reversed NalBzoH analgesia far less effectively than morphine analgesia. In contrast, Win44,441 antagonized both morphine and NalBzoH analgesia with a similar potency, consistent with a kappa mechanism for NalBzoH analgesia. Repeated administration of NalBzoH resulted in tolerance. There was no analgesic cross-tolerance between NalBzoH and either morphine or the kappa 1-selective agent U50,488H, implying a selective kappa 3 mechanism of analgesia. In addition to blocking morphine analgesia, low doses of NalBzoH also partially reversed the inhibition of gastrointestinal transit in mice produced by morphine, antagonized completely morphine lethality and precipitated withdrawal in morphine-dependent mice, confirming its antagonist activity in mu receptors. The duration of NalBzoH's kappa and mu actions differed dramatically. In mice, analgesia typically lasted less than 2 hr whereas the same NalBzoH dose antagonized completely morphine analgesia, a mu action, for 16 hr. Full sensitivity to morphine did not return for 32 hr.(ABSTRACT TRUNCATED AT 250 WORDS)
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The goal of this study was to determine whether opioids of varying potencies are pharmacologically active via the inhalation route of administration in mice. The opioids evaluated included heroin, morphine, codeine, fentanyl and meperidine; each of these drugs has the potential for abuse in humans. Inhalation exposure to each of these compounds produced antinociception in a dose-dependent manner as assessed in the tall-flick test. No pyrolysis products were detected after heating either morphine or codeine at 250 degrees C for 5 min. Although 6-acetylmorphine was found after heating heroin, it accounted for less than 5% of the recovered sample. Heroin was somewhat less potent by inhalation administration than i.v. injection, with ED50 values of 1.6 and 0.69 mumol/kg, respectively. In contrast, the relative potency of morphine was substantially greater when inhaled than when injected, with respective ED50 values of 0.77 and 3.9 mumol/kg. Whereas the body to brain ratios of [3H]morphine were approximately 8 and 20 for inhalation exposure and i.v. injection, respectively, the ratio for heroin was approximately 5 regardless of administration route. This pattern of results suggests that the increase in morphine potency upon inhalation may have resulted from an increased accessibility to the brain compared with i.v. injection. Finally, naloxone reversed the antinociceptive effects of volatilized heroin, but neither the kappa selective antagonist nor-binaltorphimine nor the delta selective antagonist naltrindole blocked this antinociception, which suggests the involvement of mu opioid receptors. These findings taken together suggest the potential for the abuse of a variety of opioids, in addition to heroin, through the inhalation route of administration by humans.
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The antinociceptive effects of various cannabinoids, alone and in combination with opiates, were evaluated in antinociceptive tests in mice. The cannabinoids tested produce marked antinociceptive effects after i.t. administration to mice. The rank order of potency for the drugs using the tail-flick test was levonantradol greater than CP-55,940 = CP-56,667 greater than 11-hydroxy-delta 9-THC greater than delta 9-THC greater than delta 8-THC; dextronantradol was inactive at a dose of 25 micrograms/mouse. Respective ED50 values in the tail-flick test were 0.4, 12.3, 4.2, 15, 45 and 72 micrograms/mouse. Although pretreatment with morphine somewhat enhanced the effects of delta 9-THC, pretreatment of the mice with naloxone (1 mg/kg s.c. or 1 micrograms/mouse i.t.) failed to block the antinociceptive effects of the cannabinoids, indicating that the cannabinoid-induced antinociception does not occur due to direct interaction with the opiate receptor. Pretreatment of mice with 3.13 micrograms/mouse and 6.25 micrograms/mouse of delta 9-THC shifted the ED50 of morphine to 0.15 and 0.05 micrograms/mouse, respectively (a 4-and a 12-fold shift). The shifts in the dose-response curve of the morphine were parallel. Naloxone administration (1 mg/kg s.c.) completely blocked the antinociceptive effects of the combination of 6.25 micrograms of delta 9-THC with morphine. The AD50 for naloxone blockade of the drug combination was 0.24 (0.06-0.94) mg/kg s.c. and the pA2 was 7.7 (6.7-8.9). The pA2 for naloxone blockade of the dimethylsulfoxide-morphine combination was 6.9 (5.7-8.1).(ABSTRACT TRUNCATED AT 250 WORDS)
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Suramin exhibited morphine-like analgesic activity in mice. It antagonized both thermal (hot-plate) and acetic acid-evoked writhing responses with ED50 values 1/100 and 1/68, respectively, that of morphine. The suramin-and morphine-induced hot-plate analgesia was suppressed by administration of 0.5 mg/kg naloxone. However, lower doses (5–30 μ/kg) of naloxone produced dose-related potentiation or suppression of suramin and morphine analgesia. This potentiation effect may be due to the inhibition of writhing by naloxone itself rather than be a direct antagonism of the morphine effect.
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We evaluated the ability of morphine to release histamine when injected intradermally in man. Mathematic analysis of the dose-response (wheal) relationship suggested that two different effects were involved. The effect of low doses of morphine (0.05 to 1 microgram) was clearly antagonized by naloxone (0.4 or 1.2 mg im 30 minutes before), whereas the effect of higher doses (5 to 50 micrograms) was not modified. The median effective doses of morphine (ED50) for the low dose range effect were 0.07 +/- 0.01 and 0.08 +/- 0.01 microgram before naloxone and 0.14 +/- 0.02 and 0.15 +/- 0.03 microgram after 0.4 and 1.2 mg doses, respectively. Astemizole (45 mg po 30 minutes before) and oxatomide (60 mg po 120 minutes before) produced similar inhibition of histamine-induced wheals, but there were clear differences in their effects on wheals elicited by morphine. Morphine ED50 values for the low dose range effect rose from 0.09 +/- 0.01 to 0.20 +/- 0.01 microgram after astemizole and from 0.08 +/- 0.01 to 0.46 +/- 0.04 microgram after oxatomide. Opiate receptors may be involved in some of the effects produced by morphine injection in the human skin, but morphine-induced wheals seem to offer a suitable model for the evaluation of agents capable of inhibiting histamine release in man.
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Pemedolac [cis-1-ethyl-1,3,4,9-tetrahydro-4-(phenylmethyl)-pyrano [3,4-b]indole-1-acetic acid; AY-30,715] exhibited potent analgesic effects against chemically induced pain in rats and mice and against inflammatory pain in rats. In each of the animal models used the analgesic potency of pemedolac was defined by an ED50 of 2.0 mg/kg p.o. or less. Significant analgesic activity was detected in rats at 16 hr after administration of 1 mg/kg p.o. (paw pressure test) and at 10 hr after administration of 10 mg/kg p.o. to mice (p-phenylbenzoquinone writhing). Inasmuch as pemedolac was inactive in the hot plate and tail-flick tests; and its analgesic activity was not antagonized by naloxone (1 mg/kg s.c.), and tolerance did not develop upon multiple administration; this drug does not exert its analgesic effects through an opiate mechanism. Pemedolac differed from standard nonsteroidal anti-inflammatory drugs (NSAIDs) in that the doses which produced analgesia were much lower than those required for either anti-inflammatory or gastric irritant effects. In acute anti-inflammatory tests, pemedolac exhibited only weak activity as evidenced by an ED50 approximately 100 mg/kg p.o. in the carrageenan paw edema procedure. This demonstrates for pemedolac a separation of at least 50-fold between the acute analgesic and anti-inflammatory activities, which was greater than that observed with reference NSAIDs. The compound also had a low ulcerogenic liability with an acute UD50 = 107 mg/kg p.o. and a subacute UD50 estimated to be 140 mg/kg/day p.o. In contrast, the reference NSAIDS (piroxicam, indomethacin, naproxen and ibuprofen) exhibited similar dose-response relationships for the analgesic, anti-inflammatory and gastric irritant effects.(ABSTRACT TRUNCATED AT 250 WORDS)
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