UMLS:C0020672 - FACTA Search

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Query: UMLS:C0020672 (hypothermia)
17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ethanol is known to cause hypothermia. The rectal temperature of rats receiving ethanol, 4 g/kg i.p., at an ambient temperature of 23 degrees C decreased by 2 degrees C. This body temperature decrease could be prevented by keeping the animals at an ambient temperature of 34 degrees C. Irrespective of the body temperature it was found that the concentration of the major metabolites of dopamine and serotonin in brain tissue was significantly increased. Thus, the change in brain monoamine metabolite levels in rats after administration of ethanol are not due to ethanol-induced hypothermia.
Drug Alcohol Depend 1987 Jul
PMID:Ethanol-induced hypothermia and biogenic amine metabolites. 244 Jun 56

The contribution of Pavlovian conditioning of environmental cues has been studied in relation to tolerance to ethanol-induced hypothermia and cross-tolerance to pentobarbital. Two groups of 12 male Sprague-Dawley rats were exposed every other day to a distinctive set of environmental cues paired with an IP injection of either ethanol 2.5 g/kg or an equivalent volume of isotonic saline. On alternating non-drug days, both groups received saline in the animal room. When they were tested for tolerance to the hypothermic effect of ethanol 2.5 g/kg and cross-tolerance to pentobarbital 25 mg/kg in each environment, tolerance and cross-tolerance in the ethanol-treated group were significantly more pronounced in the ethanol-paired environment than in the saline-paired environment. This indicates the importance of a conditional factor in tolerance and cross-tolerance in this paradigm. Determination of blood levels of ethanol and pentobarbital at various times after injection indicated that conditioned tolerance and cross-tolerance can be explained in part by dispositional factors.
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PMID:The contribution of environmental cues to cross-tolerance between ethanol and pentobarbital. 249 28

Genetic influences on the interaction between ethanol (ETOH) and gamma-aminobutyric acid (GABA) neurotransmitter systems were evaluated with a survey of responses to coadministration of ETOH and a GABA antagonist, bicuculline, in a battery of inbred mouse strains. The selectively bred ETOH-sensitive Long-Sleep (LS) mice, the relatively ETOH-resistant Short-Sleep (SS) mice, and a genetically heterogeneous stock (GHS) were also evaluated. The effect of bicuculline on ETOH-induced sedation, hypothermia, and blood ethanol content upon recovery from sedation was assessed. Inheritance of these responses was also examined using F1 hybrids. The effect of bicuculline on ETOH-produced narcosis varied widely among stocks and included antagonism, potentiation, and no effect. Changes in ETOH-induced narcosis produced by bicuculline were accompanied by changes in blood ethanol concentrations consistent with an hypothesis of altered central nervous system sensitivity to ETOH. Knowledge of a strain's seizure susceptibility to the GABA antagonist or of its sensitivity to the hypnotic effects of ETOH were of no predictive value in estimating the outcome of coadministration studies, suggesting at least partially separate genetic influences on each phenotype. In cross-breeding studies there was commonly dominance toward a profile of bicuculline antagonism of ETOH narcosis but different patterns of dominance were observed for seizure susceptibility, again indicating separate genetic control. The results suggest considerable complexity of GABAergic involvement in genotype-dependent ETOH sensitivity.
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PMID:Modification of ethanol effects by bicuculline: genotype-dependent responses and inheritance. 250 98

In the early 1970's, calcium ions were implicated in the mechanism underlying the perturbation of the "set point" for body temperature produced by a thermolytic drug. Since Ca++ is thought to be involved in the incapacitating effects of ethanol on body temperature and motor coordination, this investigation sought to compare the differential central actions of a Ca++ chelating agent with those of a Ca++ channel antagonist on ethanol-induced poikilothermia and motor functions. A chronically indwelling cannula for intracerebroventricular (ICV) injection was implanted stereotaxically in each of 25 adult male Sprague-Dawley rats. Following postoperative recovery, each rat was given ethanol in a 20% v/v solution by the intraperitoneal route in a dose of 4.0 g/kg, which was selected to insure a clear-cut impairment of autonomic and motorial functions. Colonic temperature, behavioral sleep, righting reflex and degree of motor coordination on a rotorod were monitored at selected intervals for 5.0-7.0 hr after the injection of ethanol. Two experimental designs were used: First, either 12.5, 25 or 50 micrograms ethyleneglycol-bis-(beta-amino ethyl ether) N,N'-tetra-acetic acid (EGTA), or 25 or 50 micrograms verapamil, both dissolved in an artificial CSF vehicle, were infused ICV at the same time as ethanol's administration. In the second design, the compounds were infused at the nadir of the ethanol-induced temperature decline. EGTA infused ICV in the rat together with ethanol produced a dose-dependent inhibition of ethanol hypothermia and a more rapid recovery of the animal's righting reflex, arousal and motor coordination than that following ethanol alone. Although verapamil infused ICV in the 50 micrograms but not 25 micrograms dose minimized the poikilothermic response to ethanol, it was not as efficacious as that of EGTA. When infused ICV at the point of maximum fall in the rats' temperature. EGTA entirely reversed the hypothermia induced by ethanol and evoked a thermogenic response in the rat. In contrast, verapamil infused ICV in the same doses tended only to retard the further decline in the animal's body temperature. Similarly EGTA was far more effective than verapamil in ameliorating the other physiological actions of ethanol in terms of the reversal of areflexia, behavioral sleep and motor incoordination. These results suggest that the characteristic attributes of membrane Ca++ in terms of its binding and other neuronal properties play a significant functional role in the incapacitating action of ethanol on the diverse physiological processes mediated by the brain.(ABSTRACT TRUNCATED AT 400 WORDS)
Alcohol
PMID:Alcohol-induced poikilothermia, sleep and motor impairment: actions on brain of EGTA and verapamil. 251 53

Ethanol prevents the decrease of the number of beta-adrenoceptors in the cerebral cortex induced by chronic treatment of rats with desipramine. The activation of the adenylate cyclase, the second messenger, by beta-adrenergic agonists is reduced somewhat less than after treatment with desipramine alone. The present paper examined the hypothesis that ethanol inhibits the neuronal adaptation to desipramine chronic treatment at the functional level as well. Desipramine reduced exploratory behavior (crossings, rearings) as did ethanol. Combined treatment attenuated the effect of desipramine. Cognitive performance was investigated using an active avoidance paradigm. Desipramine-treated rats did not learn the task in contrast to control animals. Again, combination treatment with ethanol improved the ability of the rats to perform the task. The activity of cerebral beta-adrenergic mechanisms was assessed by injection of salbutamol, a beta-adrenoceptor agonist in rats pretreated with 5-hydroxytryptophan (5-HTP). The augmentation of the 5-HTP-induced wet dog shake behavior by salbutamol was observed in all animals independent of the chronic treatment. However, rats treated with desipramine were less active than those treated with tap water or ethanol. The effect of desipramine in the presence of a high concentration of salbutamol was attenuated by ethanol. The observed increase of the number of wet dog shakes correlates with the function of these receptors. In two paradigms, spontaneous motility and apomorphine-induced hypothermia, ethanol did not affect the action of desipramine. It is noteworthy that desipramine acted in both situations within a short time period (minutes to hours). The findings strongly suggest that ethanol can prevent adaptive changes in the brain induced by chronic treatment with the antidepressant desipramine. This is of special interest since the adaptation of beta-adrenoceptors is thought to be critical for the antidepressant efficacy of various therapeutic interventions applied in psychiatric practice.
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PMID:Effects of desipramine on rat behavior are prevented by concomitant treatment with ethanol. 254 96

Endogenous opiates are believed to subserve various behaviors and physiological functions. We have examined the effect of U50488H (0-12 mg/kg), a kappa agonist, and WIN 44441-3 (0-4.0 mg/kg), a kappa antagonist, on ethanol (ET)-induced changes in rectal temperature and in plasma corticosterone (CS) levels in rats. The 12 mg/kg dose of U50488H produced marked hypothermia, the other doses either produced hyperthermia comparable to that seen in control animals, or had no effect. The 0.5 mg/kg of WIN44441-3 had a small hypothermic effect while the 4.0 mg/kg produced hyperthermia. U50488H potentiated and the low dose of WIN 44441-3 reversed the hypothermic effect of ethanol. By contrast, neither WIN 44441-3 nor U50488H pretreatments affected the ethanol-induced elevation in plasma CS. These results indicate that kappa agonists increase plasma CS concentration and affect thermoregulatory mechanisms. Furthermore, our data indicate a possible role of endogenous kappa opioids in the hypothermic effect of ethanol, but not in the elevation of plasma CS.
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PMID:Effects of ethanol on plasma corticosterone and rectal temperature modification by U50488H and WIN 44441-3. 254 75

Neurotensin (NT), injected centrally, markedly enhances sensitivity to ethanol-induced anesthesia in SS but not in LS mice (4). Since LS and SS mice were bred selectively for differential sensitivity to ethanol, these findings suggest that neurotensinergic neuronal processes mediate some of ethanol's actions and that LS and SS mice might differ genetically in neurotensinergic systems. Indeed, in biochemical studies it was shown that LS and SS mice differ in NT-like immunoreactivity in specific brain regions, i.e., hypothalamus, and in NT receptor densities (Bmax) in frontal cortex and striatum. In other experiments LS and SS mice differed in behavioral responses to centrally administered NT. Intracerebroventricular (ICV) administration of NT produced dose-dependent changes in motor activity, hypothermia, and analgesia in both LS and SS mice. SS mice appeared to be more sensitive than LS to NT-induced analgesia but not hypothermia. Neurotensin increased or decreased locomotor activity in both SS and LS mice following intraventral tegmental area or ICV administration, respectively. The results indicate that LS and SS mice, which were selectively bred for differences in ethanol sensitivity, differ genetically in NT concentrations, receptor densities in specific brain regions, and in some receptor-mediated behavioral responses to NT.
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PMID:Comparison of neurotensin levels, receptors and actions in LS/Ibg and SS/Ibg mice. 254 8

The ability of the GABA(B) receptor antagonist, phaclofen to alter behavioral effects of ethanol was evaluated by loss of righting reflex (sleep time), motor incoordination (bar holding), spontaneous locomotion (open field activity) and hypothermia. Pretreatment with phaclofen significantly decreased the effects of ethanol on motor incoordination, locomotor activity and hypothermia. However, phaclofen had no effect on either pentobarbitalor diazepam-induced motor incoordination. Phaclofen slightly increased the ED50 for loss of the righting reflex but did not alter either the duration of reflex loss produced by ethanol or blood ethanol levels at awakening. Our results suggest phaclofen is rapidly inactivated resulting in difficulty in observing antagonism of long duration ethanol effects. These findings suggest that the GABA(B) system may play a role in mediating several important actions of ethanol.
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PMID:A new alcohol antagonist: phaclofen. 255 16

Research suggests that microwave (MW) irradiation can attenuate ethanol (EtOH)-induced hypothermia in a manner that may depend, in part, on noradrenergic (NE) neurotransmitter systems. To investigate this possible interaction, neonatal rats were injected with the neurotoxin 6-hydroxydopamine (6-OHDA) to lesion central NE neurons. When tested as adults, lesioned, MW irradiated rats did not demonstrate the interaction between MW (2.45 GHz, 45 min, specific absorption rate = 0.3 W/kg) and EtOH-induced hypothermia that was seen among control animals. Additional experiments examined MW interactions with centrally and peripherally acting beta-adrenergic antagonists. Acute low-level MW irradiation attenuated EtOH-induced hypothermia in the rat. Pretreatment with 1.0 mg/kg of the centrally active beta-adrenergic antagonist propranolol significantly attenuated the ethanol-induced hypothermia of sham-irradiated (SH-irradiated) rats. There was no consistent effect of propranolol on MW irradiated animals, regardless of dose. Similarly, the degree of hypothermia demonstrated by SH-irradiated controls was significantly attenuated compared to MW irradiated animals by pretreatment with the peripheral beta-adrenergic antagonist CGP-12177 (doses of 0.1, 1.0 and 10.0 mg/kg). In vivo binding data indicates only the highest dose of CGP-12177 to be centrally active. Taken together, the results confirm NE mediation of EtOH-induced hypothermia and suggest that MW energy may in some way mimic the role of beta-adrenergic antagonists.
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PMID:Microwave attenuation of ethanol-induced interactions with noradrenergic neurotransmitter systems. 167 Dec 21

Effects of selective alpha 2-adrenoceptor antagonists, atipamezole and idazoxan, on ethanol-induced hypothermia were investigated in mice. Ethanol significantly reduced (P less than 0.001) core temperature whilst both alpha 2-adrenoceptor antagonists were without effect when administered alone. However, both the 1 and 3 mg/kg doses of atipamezole significantly (P less than 0.05) attenuated the ethanol-induced reduction in body temperature 20 and 40 min after administration. The 3 mg/kg dose of idazoxan (but not the 1 mg/kg dose) also significantly (P less than 0.05) attenuated ethanol's hypothermic effect 20 min after administration but this effect was not statistically significant at 40 min. In a subsequent experiment using lower doses of atipamezole (0.03-1.0 mg/kg) the attenuation of ethanol-induced hypothermia caused by atipamezole was found to be dose-related. The effect of the benzodiazepine inverse agonist Ro 15-4513 on ethanol-induced hypothermia was also investigated. This compound possessed an intrinsic hypothermic action but neither attenuated nor enhanced the hypothermic effect of ethanol. These results suggest that alpha 2-adrenoceptor can, at least partially, modulate the hypothermic effects of ethanol.
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PMID:Attenuation of hypothermic effects of ethanol by alpha 2-adrenoceptor blockers. 257 27

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