European journal of pharmacology
-
The intrathecal (i.t.) injection of 100 nmol of oxymetazoline to male, Sprague-Dawley rats significantly increased tail flick latency and paw pressure threshold for 10 h as compared to i.t. saline-treated rats. Oxymetazoline-induced antinociception was accompanied by a 2 degree C decrease in rectal temperature and a delayed but mild sedative effect. Intrathecal phentolamine (50 micrograms), injected 8 h after i.t. oxymetazoline, completely reversed the analgesic and hypothermic effects but did not affect sedation. ⋯ For i.t. morphine alone, the ED50 and 95% confidence interval (95% CI) was 3.8 nmol (2.8-5.6) in the tail flick test and 7.7 nmol (5.4-12.8) in the paw pressure test. In the combination, the ED50 (95% CI) of i.t. morphine was 0.7 nmol (0.6-0.8) in the tail flick test and 1.2 nmol (1.1-1.4) in the paw pressure test, corresponding to an approximate 6-fold increase in potency. The data indicate that: (1) the antinociceptive and hypothermic effects of i.t. oxymetazoline at 8 h are mediated by spinal alpha-adrenoceptors; (2) peripheral sites, and probably supraspinal sites, do not contribute to i.t. oxymetazoline-induced antinociception [corrected]; and (3) oxymetazoline potentiates the analgesic effects of morphine in the spinal cord of the naive rat.
-
In anaesthetized, paralysed and artificially ventilated dogs, activities were recorded from the phrenic nerve and from respiratory units within the nucleus tractus solitarii (nTS), the nucleus ambiguus (nA) and the nucleus retroambigualis (nRA). The respiratory neurons were classified according to their discharge pattern and their response to lung inflation. Fentanyl injected into the vertebral artery (0.5-2 micrograms/kg) or intravenously (10 micrograms/kg) produced a depressant effect on the phrenic nerve motoneurons, on inspiratory cells (I alpha and I beta) and on phase-spanning expiratory-inspiratory neurons of the nTS and the nA. ⋯ Naloxone antagonized these effects but induced the appearance of tonic discharges in fentanyl-treated phase-spanning expiratory-inspiratory neurons. Stimulation of peripheral chemoreceptors with almitrine (0.2 mg/kg i.v.) antagonized the effects of fentanyl. In addition, fentanyl facilitated the lung inflation reflex on respiratory neurons.(ABSTRACT TRUNCATED AT 250 WORDS)
-
(-)-N6-(R-phenylisopropyl)-adenosine (PIA) was shown to possess analgesic activity in both the tail flick and acetic acid writhing assays. The analgesic actions of PIA were antagonized by caffeine in a dose-dependent manner. An apparent pA2 analysis in vivo suggested that the antagonism by caffeine was not competitive. ⋯ PIA attenuated while caffeine exacerbated opiate withdrawal. While a low dose of caffeine antagonized PIA effects on withdrawal, a low dose of PIA did not antagonize the effects of caffeine. These results indicate that PIA can facilitate, and caffeine can antagonize the actions of morphine and that caffeine may be exerting some of its actions independent of adenosine receptor antagonism.
-
The peripheral administration of tetrabenazine (TBZ) induces rapid depletion of brain regional concentrations of norepinephrine (NE), dopamine (DA) and serotonin (5-HT). With respect to both dosage and time, striatal DA was most sensitive to the effects of TBZ while hypothalamic NE was least affected. ⋯ DMI, however, did not influence the effect of TBZ on striatal DA or hypothalamic 5-HT. The protective effects of both clorgyline and DMI were also evident under the conditions of the behavioral TBZ test utilizing high doses of TBZ (20 mg/kg).
-
Pupillary response of albino rabbits were recorded using an infrared video pupillometer. The transient response to an i.v. injection of morphine (1-12 mg/kg) consists of three phases. Phase 1 is a brief mydriasis of 20 s duration. ⋯ Thus, dynamic pupillography reveals that the terms "miosis' and "mydriasis' may be insufficient to fully describe opiate-induced pupillary effects. All three phases are blocked by naloxone (0.1 mg/kg i.v.) and by topical pretreatment with scopolamine. These results are consistent with the theory that morphine alters pupil size by interaction with opiate receptors that are involved in the control of parasympathetic output to the iris.