Butorphanol tartrate: 2. Safety and efficacy in balanced anaesthesia

Dobkin, Allen B.; Arandia, Hernando Y.; Byles, Peter H.; Africa, Benjamin F.; Caruso, Frank; Noveck, Robert J.

doi:10.1007/bf03006742

Cited by 17 publications

(3 citation statements)

References 10 publications

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“…Many previous studies have shown butor-CANA DIAN ANAESTHETISTS' SOCI ETY JOURNAL phanol tartrate to be a potent analgesic offering excellent pain relief 3-9 and the duration of action in every respect approximates that of morphine sulphate. 3-s, 16 The present study demonstrates that butorphanol tartrate in divided dosesof I to 2 mg is comparable to the intermittent intravenous use of morphine sulphate 5 to 10 mg in a balanced anaesthesia technique with nitrous oxide and oxygen, with a low incidence and severity of side effects and satisfactory amnesia. This conclusion agrees with that of Dobkin,et al,16 who evaluated butorphanol as an analgesic in balanced anaesthesia ;n an open expe0imental design.…”

Section: Discussionsupporting

confidence: 51%

A double-blind study of the effects of butorphanol compared with morphine in balanced anaesthesia

Pizzo

1978

Canad. Anaesth. Soc. J.

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Section: Discussionsupporting

confidence: 51%

A double-blind study of the effects of butorphanol compared with morphine in balanced anaesthesia

Pizzo

1978

Canad. Anaesth. Soc. J.

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“…Butorphanol (17‐cyclobutylmethyl‐3,14‐dihydroxymorphinan) tartrate, a member of the phenanthrene class of opioids, is a mixed “agonist‐antagonist” opioid analgesic agent that exerts an analgesic action with a potency seven times greater than that of morphine (Dobkin et al, 1976). Currently, butorphanol tartrate is available for clinical use under the trade name of Stadol.…”

mentioning

confidence: 99%

Proteomic analysis of phosphotyrosyl proteins in the rat brain: Effect of butorphanol dependence

Kim

Chudapongse

Lee

et al. 2004

J of Neuroscience Research

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Butorphanol (17-cyclobutylmethyl-3,14-dihydroxymorphinan) tartrate (Stadol) is a mixed agonist-antagonist opioid analgesic agent that is about five to seven times as potent as morphine in analgesic effects. The chronic use of butorphanol produces physical dependence in humans and animals. Phosphorylation plays a very important role in developing butorphanol dependence; however, global phosphorylation events induced by chronic butorphanol administration have not been reported. The aim of this study is to determine the alteration of tyrosine phosphorylation of brain frontal cortical proteins in butorphanol-dependent rats using a proteomic approach. Dependence was produced by continuous intracerebroventricular (i.c.v.) infusion of butorphanol (26 nmol/microl/hr) for 72 hr via osmotic minipump in rats. Similar patterns of protein expression were detected by two-dimensional electrophoresis (2-DE) in brain frontal cortex of butorphanol-dependent and saline-treated control rats. All 65 phosphotyrosyl (p-Tyr) protein spots detected in pH 3-10 phosphotyrosine 2-DE of control rat brains were detected in butorphanol-dependent rat brains. The densities of most p-Tyr protein spots were increased in butorphanol-dependent rat brains compared to saline-treated control samples. Eighteen additional p-Tyr protein spots were detected in pH 3-10 2-DE images of butorphanol-dependent rat brains. Immobilized pH strips with three different narrow pH ranges were examined to improve the resolution of p-Tyr proteins in 2-DE gels. Fifty-three p-Tyr protein spots were identified as known proteins involved in cell cytoskeleton, cell metabolism, and cell signaling. This proteomic approach can provide useful information for understanding the complex mechanism of butorphanol dependence in vivo.

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“…Butorphanol (17‐cyclobutylmethyl‐3,14‐dihydroxymorphinan) is a relatively potent synthetic “agonist‐antagonist” opioid analgesic agent (Pircio et al, 1976; Peachey, 1987) and produces analgesic effects by acting mainly on κ‐opioid receptors (Dobkin et al, 1976; Chang et al, 1983). Several studies have reported that chronic administration of butorphanol results in development of dependence in man (Brown, 1985; Evans et al, 1985) as well as in animals (Pircio et al, 1976; Horan and Ho, 1991).…”

mentioning

confidence: 99%

Enhanced binding of nor‐binaltorphimine to κ‐opioid receptors in rats dependent on butorphanol

Fan

Tien

Tanaka

et al. 2003

J of Neuroscience Research

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Autoradiographic characterization of binding for brain kappa(1) ([(3)H]CI-977) and kappa(2) ([(3)H]bremazocine) in the presence of DAMGO ([D-Ala(2),N-Me-Phe(4),Gly(5)-ol]-enkephalin), DPDPE ([D-Pen(2), D-Pen(5)]-enkephalin), and U-69,593 opioid receptors, in the presence of different concentrations of a selective unlabeled kappa-opioid receptor antagonist, nor-binaltorphimine (nor-BNI), was performed in rats in which dependence on or withdrawal from butorphanol had been established. Dependence was induced by a 72 hr intracerebroventricular (i.c.v.) infusion with butorphanol (26 nmol/microl/hr; butorphanol dependent). Butorphanol withdrawal was produced by terminating the infusion of butorphanol in dependent animals. Responses were studied 7 hr following termination (butorphanol withdrawal). IC(50) values from competition studies were estimated by fitting inhibition curves for both kappa(1)- and kappa(2)-opioid receptor assays. In both dependent and withdrawal groups, the IC(50) values obtained against [(3)H]CI-977 or [(3)H]bremazocine with nor-BNI were decreased (ratios of approximately 0.03-0.21 and approximately 0.05-0.42 vs. control, respectively) in brain regions, including frontal cortex, nucleus accumbens, claustrum, dorsal endopiriform nucleus, caudate putamen, parietal cortex, posterior basolateral amygdaloid nucleus, dorsomedial hypothalamus, hippocampus, posterior paraventricular thalamic nucleus, periaqueductal gray, substantia nigra, superficial gray layer of the superior colliculus, ventral tegmental area, and locus coeruleus, compared with control. These results indicate that, in butorphanol-dependent and butorphanol-withdrawal rats, the brain kappa(1)- and kappa(2)-opioid receptors developed a supersensitivity to antagonist binding.

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Butorphanol tartrate: 2. Safety and efficacy in balanced anaesthesia

Cited by 17 publications

References 10 publications

A double-blind study of the effects of butorphanol compared with morphine in balanced anaesthesia

A double-blind study of the effects of butorphanol compared with morphine in balanced anaesthesia

Proteomic analysis of phosphotyrosyl proteins in the rat brain: Effect of butorphanol dependence

Enhanced binding of nor‐binaltorphimine to κ‐opioid receptors in rats dependent on butorphanol

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