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Query: UMLS:C0344307 (
analgesia
)
28,200
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Red, sika, fallow, roe and muntjac deer adapted to captivity in experimental units designed for working with foot-and-mouth disease. The red, sika and fallow deer readily accepted rolled oats and hay as their staple diet. This diet was replaced for the roe and muntjac deer with flaked maize, calf starter pellets and green browse.
Etorphine
/acepromazine ans xylazine were found to be suitable sedatives for detailed examination of the tongue and oral cavity of the various species of deer and gave adequate
analgesia
for the inoculation and collection of virus samples.
...
PMID:Management of deer for experimental studies with foor-and-mouth disease virus. 113 25
The relationship between analgesic activity, measured as the hot plate reaction time, and respiratory depression, measured as ventilatory frequency, was investigated in mice for a variety of mu opioid receptor agonists with differing selectivities for mu receptors compared with delta receptors. There was a weak correlation between
analgesia
and respiratory depression for opioids with the greatest selectivity for mu opioid receptors compared with delta receptors, such as alfentanil. The strength of the correlation increased for opioids which had greater delta receptor activity, such as morphine and fentanyl.
Etorphine
, which has almost equal affinity for mu, delta and, incidentally, kappa receptors, showed a strong correlation between
analgesia
and respiratory depression. We conclude that the predictability of the degree of respiratory depression produced by a given analgesic dose of an opioid appears to decrease with its selectivity for mu opioid receptors, at least in the mouse.
...
PMID:Relationship between analgesia and respiratory depression for mu opioid receptor agonists in mice. 168 79
In order to find a suitable analgesic for the treatment of postoperative pain in pigs the analgesic effect of buprenorphine, etorphine and pethidine has been compared in 8 domestic pigs. For assessment of the analgesic action on thermal (hot plate) and two mechanical (cannulation of ear vein, needle prick) noxious stimuli have been employed. In a pilot experiment on 2 pigs in which methadone was included the maximal effective doses were estimated for each drug. Methadone was found unsuitable because of unacceptable side effects (respiratory dysfunction, hyperactivity) at effective dose levels. Next buprenorphine 120 micrograms/kg, etorphine 3 micrograms/kg and pethidine 20 mg/kg all given intramuscularly were compared in a randomized blind trial with a balanced cross-over design on 6 pigs.
Etorphine
proved to have the highest and pethidine the lowest maximal analgesic effect which was especially evident in the needle-prick test. Buprenorphine proved to have the longest duration of action in all three analgesic tests, in the hot plate test lasting between 7 and 24 hrs.
Etorphine
had a duration of 3 to 5 hrs whereas the effect of pethidine was short, only lasting about 2 hrs.
Etorphine
provides a complete
analgesia
but has a small safety margin for which reason it should be used with caution in the pig. The experimental results indicate that buprenorphine should be the first drug of choice in the treatment of pain after surgical intervention due to its long duration of action and lack of side effects.
...
PMID:The analgesic effect of buprenorphine, etorphine and pethidine in the pig: a randomized double blind cross-over study. 376 47
The ability of ethanol to stimulate opiate receptors was investigated. Administration of ethanol 2-3.5 g/kg in rats induced
analgesia
as tested by the tail flick method, reduced body temperature, impaired sensorimotor performance and induced "sleep". Naloxone HCI (0.5-10 mg/kg) did not significantly attenuate these ethanol-induced behavioural changes. [3H]
Etorphine
binding to opiate receptors in membrane preparations from rat and mouse brains was unchanged by ethanol concentrations of 0.05-3% (v/v). It was concluded that the ethanol effects studied were not mediated by naloxone-sensitive opiate receptors.
...
PMID:Does ethanol stimulate brain opiate receptors? Studies on receptor binding and naloxone inhibition of ethanol-induced effects. 627 68
Chronic in vivo treatment with the opioid agonist etorphine downregulates mu-opioid receptor density, produces tolerance, and regulates gene expression in the mouse. After cessation of treatment, there is an increase in mu-opioid receptor mRNA level associated with the recovery of mu-opioid receptors. However, the effect of etorphine on the regulation of mRNA during treatment is currently not known. In this study, etorphine-induced changes in mu-opioid receptor density, mRNA, and opioid analgesic potency were determined in two mouse strains that differ in basal mu-opioid receptor density in brain. CXBK mice (mu-opioid receptor deficient) and outbred Swiss Webster mice were implanted s.c. with placebo pellets (controls) or etorphine minipumps (250 microg/kg/day) for 1-7 days and mu-opioid receptor density or mRNA levels in whole brain were assessed or mice were tested for etorphine
analgesia
following 7 days of treatment. In control CXBK mice, mu-receptor density was approximately 40% less than that for the Swiss Webster, although mRNA abundance was similar in both strains.
Etorphine
's potency was 4-fold greater in control Swiss Webster compared to CXBK mice.
Etorphine
treatment decreased ( approximately 25-40%) mu-receptor density similarly in both strains throughout treatment. The magnitude of analgesic tolerance to etorphine was 8-fold in both mouse strains.
Etorphine
produced a biphasic effect on receptor mRNA in both strains with levels decreased (25%) by 3 days and increased (30-40%) at 7 days. mRNA levels remained elevated (55%) 16 h following the end of the 7 day etorphine treatment. Taken together, these data suggest that in vivo etorphine treatment that produces mu-opioid receptor downregulation and tolerance, can regulate mu-opioid receptor mRNA abundance. Receptor downregulation may initially induce decreases in mRNA levels since downregulation preceded a decrease in gene expression. Prolonged (>3 days) receptor downregulation may be responsible for increasing message levels and may be important in recovery of receptors following treatment. In addition, the magnitude of changes in receptor density, mRNA, and tolerance were similar in both CXBK and Swiss Webster mice, indicating that the mechanisms required for receptor regulation and its functional consequences are independent of basal mu-opioid receptor density.
...
PMID:In vivo regulation of mu-opioid receptor density and gene expression in CXBK and outbred Swiss Webster mice. 1088 Oct 33
Chronic opioid agonist treatment produces tolerance and in some cases opioid receptor internalization and down-regulation. Both morphine and etorphine induce tolerance; however, only etorphine produces mu-opioid receptor (muOR) down-regulation. In vitro studies implicate dynamin-2 (DYN-2) and G-protein receptor kinase-2 (GRK-2) in these processes. Therefore, we examined etorphine and morphine effects on regulation of GRK-2 and DYN-2 in mouse spinal cord. Mice were treated for 7 days with etorphine (200 microg/kg/day infusion) or morphine (40 mg/kg/day infusion + one 25-mg implant pellet). Controls were implanted with a placebo pellet. On the 7th day after implantation mice were tested for i.t. [D-Ala(2),N-Me-Phe(4),Gly(5)-ol]-enkephalin (DAMGO)
analgesia
. In other mice, spinal cord was removed for [(3)H]DAMGO binding studies or GRK-2 and DYN-2 protein and mRNA abundance were determined. Both etorphine and morphine produced significant tolerance (ED(50) shift = 7.6- and 7.3-fold for morphine and etorphine, respectively).
Etorphine
decreased spinal muOR density by approximately 30%, whereas morphine did not change muOR density.
Etorphine
increased ( approximately 70%) DYN-2 protein abundance and decreased its mRNA (31%), whereas it had no effect on GRK-2 protein and mRNA abundance. Morphine had no effect on either DYN-2 or GRK-2 protein or mRNA abundance. These data raise the possibility that unequal receptor regulation by etorphine and morphine might be due to differential regulation of trafficking proteins. Overall, receptor down-regulation associated with chronic etorphine treatment may accelerate dynamin-related activity. Finally, the decrease in DYN-2 mRNA may be related to stabilization of DYN-2 protein abundance, which might inhibit transcription.
...
PMID:Opioid agonists differentially regulate mu-opioid receptors and trafficking proteins in vivo. 1243 15
Although opioid receptors are G-protein coupled, the role that specific G-protein subunits play in the development of opioid tolerance and the regulation of opioid receptor number is not well understood. In the present study, we used a G((i)alpha2) antisense oligodeoxynucleotide (ODN) to examine the contribution of G((i)alpha2) proteins to mu-opioid tolerance and receptor downregulation in the mouse. Mice were injected intracerebroventricularly (ICV) and into the spinal intrathecal space (IT) for 4-5 consecutive days (30 microg/site/day), with an antisense ODN or a mismatch ODN directed at mRNA for the G((i)alpha2) subunit of G-proteins. Controls were treated with dH(2)O. On the second day of ODN treatment continuous subcutaneous (SC) infusion of etorphine (200 microg/kg/day) or morphine (40 mg/kg/day + 25 mg pellet) was begun. Control mice were implanted with inert placebo pellets. Three days later, pumps and pellets were removed and mice were tested for morphine
analgesia
or mu-opioid receptor density was determined in whole brain.
Etorphine
produced significant tolerance (ED(50) shift = approximately 11-fold) and downregulation of mu-opioid receptors (approximately 25%). Morphine treatment produced significant tolerance (ED(50) shift approximately 9-fold), but no mu-opioid receptor downregulation. Antisense treatment reduced G((i)alpha2) protein levels in striatum and spinal cord by approximately 25%. G((i)alpha2) antisense reduced the acute potency of morphine. G((i)alpha2) antisense blocked the development of tolerance to morphine treatment and reduced the development of tolerance to etorphine treatment. Antisense did not have any effect on etorphine-induced mu-opioid receptor downregulation. In another experiment, 7-day treatment with morphine or etorphine similarly increased G((i)alpha2) mRNA and protein abundance in spinal cord. Overall, these results support an important role for G((i)alpha2)-protein in the acute effects of opioids and opioid tolerance. However, G((i)alpha2) is not required for agonist-induced mu-opioid receptor density regulation in vivo.
...
PMID:Role of G(i)alpha2-protein in opioid tolerance and mu-opioid receptor downregulation in vivo. 1245 48
Thirty-five anesthetic events involving 15 captive addax (Addax nasonzaculatus) were performed between August 1998 and February 2002 using a combination of etorphine (33.7 +/- 7.9 microg/kg) and detomidine (21.9 +/- 4.6 microg/ kg) or a combination of medetomidine (57.4 +/- 8.6 microg/kg) and ketamine (1.22 +/- 0.3 microg/kg), with or without supplemental injectable or inhalant anesthetic agents.
Etorphine
-detomidine anesthesia was antagonized with diprenorphine (107.1 +/- 16.4 microg/kg) and atipamezole (100.9 +/- 42.4 microg/kg). Medetomidine-ketamine anesthesia was antagonized with atipamezole (245.3 +/- 63.4 microg/kg). Animals became recumbent within 5 min when the combination of etorphine and detomidine was used and within 11 min when the combination of medetomidine and ketamine was used. Both drug combinations were suitable for use as primary immobilizing agents producing short-duration restraint and
analgesia
. Bradycardia was noted with both combinations. Further investigation of the cardiopulmonary effects of both combinations is warranted.
...
PMID:Comparison of etorphine-detomidine and medetomidine-ketamine anesthesia in captive addax (Addax nasomaculatus). 1458 89
