Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020672 (hypothermia)
 17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Microwave irradiation of 6 kw at 2450 MHz for 300 msec was sufficient to completely inactivate mouse brain cholinesterase and choline acetyltransferase. After this method of sacrifice, the acetylcholine contents of mouse brain regions, given in nanomoles per gram, were found to be: striatum, 81; medulla-pons, 44; diencephalon-midbrain, 34; hippocampus, 31; cerebral cortex, 26; and cerebellum, 17. Sodium pentobarbital caused a dose-dependent increase in whole brain acetylcholine. A maximal increase of 81% in whole brain was seen at 15 minutes with 80 mg/kg of sodium pentobarbital. The increase in acetylcholine after sodium pentobarbital treatment was not caused by anoxia from respiratory depression or by hypothermia. All brain regions except the cerebellum exhibited an increase in acetylcholine after pentobarbital treatment. Fifteen minutes after treatment, cerebellar acetylcholine was significantly decreased. However, at the time when half of the animals had regained the righting reflex, the unconscious mice showed an increase in cerebellar acetylcholine which was statistically significant as compared to control. The relative accumulation rate of acetylcholine calculated for cerebral cortex and hippocampus was higher than that for striatum although the absolute rate of accumulation of ACh was higher in the striatum. Thus, after sodium pentobarbital treatment, the cerebral cortex and hippocampus exhibit a greater cholinergic response than the striatum.
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PMID:Use of 300-msec microwave irradiation for enzyme inactivation: a study of effects of sodium pentobarbital on acetylcholine concentration in mouse brain regions. 0 94

This study tests the hypothesis that postischemic myocardial depression can be reduced by providing an initial reperfusate pH which is appropriate for myocardial temperature (i.e., metabolic systems function optimally when pH is kept slightly alkaline to the neutral point, which changes with temperature in concordance with the pK of water). Ten dogs underwent 1 hour of ischemic arrest with topical hypothermia (intramyocardial temperature 16+/-2 degrees C). The initial reperfusate (500 cc of blood from the extracorporeal circuit) was infused (100 cc/minute) into the proximal aorta just before removing the cross-clamp. Reperfusate pH was kept at 7.4 in five dogs (control) and raised to 7.8 with THAM [tris (hydroxymethyl) aminomethane] in five dogs. Measurements 30 minutes after reperfusion showed that raising reperfusate pH to 7.8 resulted in (1) higher subendocardial blood flows (109+/-20 vs 61 cc+/-8 cc/100 gm/minute), (2) redistribution of postischemic blood flow toward the subendocardium (endocardial/epicardial flow 1.25+/-0.1 vs 1.0+/-0.03), (3) higher left ventricular oxygen uptakes (0.046 vs 0.033 cc/100 gm/beat), (4) better postischemic left ventricular compliance (56+/-3% more compliant), and (5) improved left ventricular performance (88+/-7% recovery vs only 57+/-3% recovery at pH 7.4). Postischemic edema (2% water gain) was unchanged by pH modification. We conclude that initial reperfusion with the appropriate pH provides an optimal milieu for restoration of cellular metabolism, counteracts the acidosis of ischemia, and improves postischemic left ventricular blood flow, distribution, oxygen uptake, compliance, and performance.
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PMID:Studies on myocardial reperfusion injury. I. Favorable modification by adjusting reperfusate pH. 1 28

Amoxapine possesses a broad spectrum of psychotropic actions, including antidepressant and neuroleptic effects in animals. Antidepressant activity is characterized by its ability to inhibit tetrabenazine-induced depression, antagonize reserpine-induced hypothermia and enhance yohimbine lethality. Neuroleptic activity is demonstrated by the ability of amoxapine to decrease locomotor activity, induce ptosis and catalepsy, inhibit apomorphine gnawing and amphetamine stereotyped behavior and by characteristic changes in monkey discriminated avoidance behavior. The fact that punished responding in squirrel monkeys was present was present after repeated administration may indicate an anti-anxiety action of this drug. Evidence is offered that the conversion of the tertiary terminal nitrogen to a secondary amine may alter the pharmacologica properties of dibenzoxazepines in a similar way to the for the phenothiazines.
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PMID:The neuropharmacological actions of amoxapine. 2 99

Body temperature depression was noted in rats, mice, and hamsters following intraperitoneal cobaltous chloride administration (25 mg/kg). Intracerebral cobalt injection elicited hypotermia in rats and mice but not in hamsters. Body temperature depression appeared to be centrally mediated in rats and mice and peripherally mediated in hamsters. The effect of intraperitoneal and intracerebral pretreatment with phentolamine, diphenhydramine, propranolol, cimetidine, and naloxone on the mouse rectal temperature response to cobalt (25 mg/kg ip) was noted. Systemic phentolamine injection (intraperitoneal) did not alter the cobalt response, whereas intracerebral administration partially antagonized cobalt-induced hypothermia, indicating that antagonism was mediated centrally. Pretreatment with propranolol and cimetidine failed to modify the temperature response. Intracerebral diphenhydramine did not influence cobalt hypothermia. However, this agent reduced the cobalt response when given intraperitoneally, presumably through a peripheral inhibitory mechanism. The intracerebral injection of naloxone 30 min prior to cobalt slightly enhanced hypothermia, apparently through a central action. Intracerebral 6-hydroxydopamine injection depleted brain norepinephrine and dopamine but exhibited no apparent influence on cobalt-induced hypothermia.
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PMID:Cobaltous chloride-induced hypothermia. II: Pretreatment with sympathoplegics, antihistamines, and narcotic antagonists. 3 17

Beta adrenergic agonist isoprenaline (8x10(-6)M) produced a 500% increase in inotropic and 90% increase in the chronotropic responses of isolated rabbit atria at 37 degrees C. On cooling the atria to 23 degrees C, these responses were significantly reduced to 87% and 30% respectively. Similar results were obtained with adrenaline, but isoprenaline was more potent. The positive chronotropic and inotropic responses to isoprenaline were effectively blocked by propranolol and practolol at 37 degrees C whereas at 23 degrees C these beta blockers were unable to block even minor positive responses obtained by isoprenaline at this temperature. On the contrary at 23 degrees C, phenylephrine (alpha adrenergic agonist) produced marked positive chronotropic and inotropic effects indicating enhancement of alpha adrenoceptor activity at lower temperatures. This also suggests that reduced beta receptor activity at lower temperature is not due to a generalised depression of adrenoceptors as a result of hypothermia. Rewarming of atria to 37 degrees C restored the beta adrenoceptor responsiveness to previous level. It appears that ambient temperature is important im maintaining normal beta adrenergic activity of the atria.
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PMID:Reduced beta adrenergic responsiveness in isolated rabbit atria during hypothermia. 23 Jan 56

Physiological roles have been suggested for prostacyclin in the cardiovascular system. Prostacyclin was administered by intravenous infusion to unanesthetized rats. Over a 24 hr period, 0.32 mg/kg/day caused only flushing of the ears. Larger doses (0.56 and 1 mg/kg/day) caused hypothermia, behavioral depression, and swelling of the paws. Cumulative dose-response curves for its depressor action were determined in both unanesthetized and anesthetized, vagotomized, ganglion-blocked rats. In unanesthetized rats, the threshold dose was about 0.1 ug/kg/min. Respiratory depression precluded doses larger than 1 ug/kg/min. In anesthetized rats, the threshold dose was about 0.001 ug/kg/min, and the maximally effective dose was about 0.1 micrograms/kg/min. At 0.032 ug/kg/min, blood pressure first fell and then rose slightly. This compensatory rise did not occur in nephrectomized rats, suggesting renin release as the mechanism. Intravenous infusion of 0.1 but not 0.01 ug/kg/min in unanesthetized rats doubled plasma renin activity. In saline-loaded unanesthetized rats, urine volume and urinary sodium excretion were decreased by 0.1 ug/kg/min of prostacyclin.
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PMID:The cardiovascular pharmacology of prostacyclin (PGI2) in the rat. 37 17

The dorsolateral prefrontal cortex of rhesus monkeys was functionally inactivated by local hypothermia as the monkeys performed spatial delayed-response and spatial delayed-alternation tasks at different stages of postnatal development. Cryogenic depression of prefrontal cortex at a temperature sufficient to induce 21--25% decrements in delayed-response performance in 34--36-month-old-monkeys, produced deficits of only 7--8% in 19--31-month-old and no detectable loss in younger monkeys, 9--16 months of age. Delayed-alternation performance was impaired by local hypothermia as early as 8.5 months of age, but maximal cooling-induced deficits on this task were not observed before 33 months of age. Thermal gradients mapped in representative monkeys at different stages of development were remarkable similar, indicating that the age-dependent differences in behavior were not attributable to technical factors. The results obtained in the present study on normal developing monkeys confirm the interpretation of previous research on brain-damaged infants that functional maturation of the dorsolateral prefrontal cortex is protracted over several years of postnatal life, and extends the earlier studies by indicating that the lower limit for maturity of dorsolateral function is close to puberty in this species. Further, the present study revealed that delayed-response and delayed-alternation performance are dissociable dorsolateral functions which achieve maturity at different rates. The convergence of evidence from reversible neural depression and permanent lesion methods provides strong validation for neurobehavioral analysis as a general approach to the study of regional maturation of the brain.
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PMID:Functional development of the dorsolateral prefrontal cortex: an analysis utlizing reversible cryogenic depression. 41 2

Previous studies have indicated that morphine alters nerve impulse activity differently in various brain areas of intact animals. Because morphine has profound effects on visceral organs and on the spinal cord, cervically transected preparations, in which hypothermia was prevented, were used for recording spontaneous impulse activity before and for 30 min after morphine simultaneously from six regions of the brain: caudate (Cau), midbrain reticular formation (MBRF), central grey (CG), cingulate cortex (CC), hippocampus (Hip), and substantia nigra (SN). Morphine (5 and 15 mg/kg, i.p.) caused a naloxone-preventable depression of impulse activity in most brain areas. The depression was, however, especially pronounced in the CG, more so with the lower than the higher dose; naloxone completely blocked the low-dose effect. The MBRF responded with increased impulse activity after 5 mg/kg, but with depression after 15 mg/kg; naloxone blocked both responses. Activity in both the Hip and CC was depressed by the low dose of morphine, but not by the high dose; naloxone blocked the depression. Both doses of morphine generally depressed the variance in impulse activity, with a clear preferential depression of CG variance; naloxone blocked the CG variance effect, but not that of other brain areas.
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PMID:Morphine-induced regional and dose-response differences on unit impulse activity in decerebrate rats. 41 34

Nifedipine, a slow-channel calcium blocker, is thought to provide useful myocardial protection during prolonged total ischemia and reperfusion. An isolated, isovolumic, feline heart model was used to asses the effectiveness of nifedipine in both cardioplegic (100 microgram/10 ml) and noncardioplegic (10 microgram/10 ml) doses for providing myocardial preservation during 90 minutes of hypothermic ischemic arrest and 45 minutes of normothermic reperfusion. Use of nifedipine was compared to hypothermia (27 degrees C) alone and to hypothermia with potassium cardioplegia. Ventricular function was assessed by recovery of isovolumic left ventricular developed pressure and dP/dt. Myocardial carbon dioxide tension (PCO2) and myocardial oxygen tension (PO2) were measured by mass spectrometry. Potassium cardioplegia and the higher dose of nifedipine resulted in immediate asystole. The rates of rise of PCO were greatest in the group receiving 10 microgram nifedipine and in the control group. The rates of rise in the two cardioplegic groups were significantly lower. Recovery of ventricular function was significantly lower with low-dose nifedipine than with potassium cardioplegia. Higher dose nifedipine resulted in a return of function, which was no different than with potassium cardioplegia. Morphologic protection was better with higher dose nifedipine and potassium cardioplegia than with either low-dose cardioplegia or hypothermia alone. These results demonstrate that nifedipine in a cardioplegic dose results in preservation of myocardial structure and function that is similar to that obtained with potassium cardioplegia. In lower noncardioplegic dose, nifedipine does not appear to offer additional protection compared to hypothermia alone. Whether persistent depression of ventricular contractility will limit nifedipine's clinical usefulness as a myocardial protection agent will require further study.
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PMID:Comparison of myocardial protection with nifedipine and potassium. 44 71

Rats were kept in barochamber for 2 hours at the pressure of 240 mm Hg after subcutaneous administration of (1)14C-acetate. Hypobaric hypoxia caused depression in the incorporation of labeled acetate similar in both phospholipid (PL) components. But the dependence of depression in the metabolic rate upon hypothermia which accompanied hypoxia was more pronounced for hydrophobic portion of PB (carbon skeleton of fatty acids) than for hydrophilic one. Similarity in the degree of the hypoxia induced depression of incorporation of the precursors containing labeled phosphorus and carbon allows one to suggest that the carbon-containing parts of PL hydrophilic components (glycerol and nitrogen bases) and residues of ortho-phosphoric acid respond to hypoxia as a whole.
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PMID:[Effect of hypobaric hypoxia on the acetate-1-14C incorporation rate in hydrophilic and hydrophobic brain phospholipid components]. 51 97


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