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)

The effects of hypothermia (32 degrees, 28 degrees, and 22 degrees C.) on left ventricular flow distribution (microspheres) and oxygen uptake in adequately perfused, beating, empty, fibrillating, and arrested hearts were studied. Minute left ventricular oxygen uptake fell progressively as myocardial temperature was reduced under all conditions. In beating hearts, however, left ventricular oxygen uptake per beat increased significantly due to the inotropic effect of hypothermia and diastolic compliance fell. Cold fibrillating hearts consumed slightly less oxygen per minute than beating hearts at comparable temperatures as fibrillation became less forceful with hypothermia. Myocardial wall tension, however, was always higher in fibrillating than beating hearts at each level of hypothermia. The lowest myocardial oxygen requirements were always found in arrested hearts (70 to 80 per cent less than either beating empty or fibrillating hearts) at any myocardial temperature. Left ventricular coronary flow remained distributed evenly across the beating heart at all myocardial temperatures and in fibrillating hearts at 28 degrees, and 22 degrees C. Left ventricular flow became redistributed toward the subendocardium in fibrillating hearts at 37 degreegs and 32 degrees C. and in arrested hearts at all myocardial temperatures.
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PMID:Studies of the effects of hypothermia on regional myocardial blood flow and metabolism during cardiopulmonary bypass. I. The adequately perfused beating, fibrillating, and arrested heart. 83 Oct 12

A longitudinal study of the age-related decline in thermoregulatory capacity was made in 47 elderly people to try to identify those at risk from spontaneous hypothermia. During the winters of 1971-2 and 1975-6 environmental and body temperature profiles were obtained in the home, and thermoregulatory function was investigated by cooling and warming tests. Environmental temperature and socioeconomic conditions had not changed but the body core-shell temperature gradients were smaller in 1976, indicating progressive thermoregulatory impairment. People at risk of developing hypothermia also seem to have low resting peripheral blood flows, a nonconstrictor pattern of vasomotor response to cold, and a higher incidence of orthostatic hypotension.
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PMID:Accidental hypothermia and impaired temperature homoeostasis in the elderly. 83 95

Mechanisms underlying the elimination or marked depression of renal function in hibernation and hypothermia were investigated through measurements of blood pressure, heart rate, red blood cell and plasma volumes, and relative distribution of cardiac output. Hamsters (Mesocricetus auratus) were made hypothermic (rectal temperature (Tre), 7 degrees C) by exposure to helox and cold, or permitted to hibernate with several weeks of cold exposure (Ta approximately 5 degrees C). Mean arterial pressure, 120 Torr in normothermic control animals, demonstrated a 55% and 60% decrease during hibernation and hypothermia, respectively. As the animals rewarmed from hypothermia or aroused from hibernation, blood pressure increased rapidly at 8-12 degrees C, more gradually at 12-17 degrees C, and plateaued thereafter. Blood pressure rapidly returned to near control levels whereas heart rate remained at less than one-half control value at the highest temperature examined. Red blood cell volume, 26.2 +/- 0.6 ml/kg body wt in the control animals appeared unaffected by hypothermia. Plasma volume, by contrast, decreased from control values of 33.0 +/- 0.8 to 21.3 +/- 0.6 ml/kg body wt in hypothermia, a decrease of approximately 35%. Distribution of cardiac output to various organs in hibernation and hypothermia followed a similar pattern. Relative flow to the heart, lung, diaphragm, and brown fat increased while the fraction distributed to the visceral organs appeared to decrease. The normothermic control kidney received approximately 16% of the cardiac output while the hibernating and hypothermic kidneys received approximately 10% and 6%, respectively. The data are discussed in terms of the determinants of glomarular filtration rate and explain, in part, the elimination or marked reduction in renal function observed in depressed metabolic states.
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PMID:Mechanisms responsible for decreased glomerular filtration in hibernation and hypothermia. 83 61

The relationship between ice-chip cardioplegia and impaired left diaphragmatic function was evaluated in dogs. Direct or indirect contact of the phrenic nerve with crushed ice for 30 or 60 minutes resulted in phrenic paralysis for 6 to 28 days, with responsiveness returning from 7 to 62 days later. Microscopical examination of injured nerves revealed injury to the myelin sheath and preservation of axons. Paralysis of the left diaphragm after topical cardiac hypothermia may be secondary to cold injury of the phrenic nerve, which is reversible.
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PMID:Topical cardiac hypothermia and phrenic nerve injury. 84 29

Dopamine (DA) was injected in the third brain ventricle of goats and the thermoregulatory effects were studied under different ambient conditions. The effects depended on dose, ambient conditions and cannula used. In the cold, there was a drop in body temperature, sometimes accompanied by suppression of shivering and by vasodilatation. Both temperature decrease and suppression of shivering were dose-dependent but there was no relation between magnitude of temperature drop and occurrence of shivering suppression. In a thermoneutral environment, there was either a slight vasoconstriction or hypothermia, occasionally accompanied by induction of panting. In the heat, either hypothermia or hyperthermia was observed. Hypothermia was accompanied by an increase in panting. Hyperthermia only occurred when the animals became excited as a result of the injection of DA. It is concluded that DA acts by stimulating the thermoregulatory pathway from heat sensors to heat loss effectors at a locus similar to that for 5-hydroxytryptamine in the thermoregulation model of Bligh et al. (1971).
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PMID:Thermoregulatory effects of intraventricularly injected dopamine in the goat. 86 60

Unanesthetized, male rats were exposed to normal air (NA), or NA and a 4 h-exposure of He-O2 (79% helium, 21% oxygen) at ambient temperature (Ta) of 22 or - 10 degrees C. Blood samples from each individual were taken from a chronically implanted carotid cannula at 1) preexposure, 2) during exposure, 3) 2.5 h after exposure, and 4) 19-20 h after exposure. Exposure to He-O2 at 22 degrees C caused an increase in plasma free fatty acids (FFA) and corticosterone of 45% and 49%, respectively, with little change in plasma glucose and thyroxine. Exposure to He-O2 at 10 degrees C for 3 h invariably induced hypothermia with body temperature (Tb) decreased to 23.7 +- 0.5 degrees C (N = 10). During hypothermia, plasma glucose, FFA, and corticosterone were significantly higher (P LESS THAN 0.05) than those at preexposure and those after exposure to NA at -10 degrees C. During spontaneous recovery from hypothermia, at Ta = 19 degrees C and NA, glucose, corticosterone, and thyroxine returned to normal, but FFA remained significantly higher than at preexposure. The ability of animals to rewarm spontaneously from hypothermia and the quick return of metabolic substrates and hormones to normal after rewarming indicates the preservation of regulatory mechanisms for metabolism at depressed Tb when hypothermia is induced by He-O2 and cold.
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PMID:Changes in plasma glucose, FFA, corticosterone, and thyroxine in He-O2-induced hypothermia. 86 34

The kinetic constants for norepinephrine uptake in cerebral cortical homogenates were determined in vitro immediately following an acute stress consisting of either forced immobilization, cold-wet exposure, combined cold-plus-restraint, swim stress, or electric footshock in the rat. The kinetic constants, apparent Km and Vmax, for uptake of 3H-l-norepinephrine were significantly increased only following 10 min swim at 22 degrees or following 5 min electric footshock. When severe hypothermia accompanied the stress, the findings suggested that a profound reduction in body temperature was associated with depressed responsiveness of brain noradrenergic mechanisms to stress including decreased uptake kinetic constants. In a series in which the duration of electric footshock was varied from 2 to 30 min, it was noted that the NE uptake kinetic constants were increased at 5 min, but were similar to paired controls at 2, 10 and 30 min following the onset of footshock. It was concluded that various acute stresses did not elicit a generalized response of the cortical NE uptake mechanism to stress in the rat. Furthermore, when uptake kinetic constants did change with stress, the values were often within the range of normal values seen in the rat.
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PMID:Acute stress and the brain norepinephrine uptake mechanism in the rat. 87 Sep 6

Nonshivering thermogenesis (NST) was examined during cold exposure (30 degrees C) in 5-day-old rats, during food deprivation. NST in the fed state doubled the O2 consumption observed at neutral temperatures. With fasting, the additional O2 consumption stimulated by cold dropped to that observed at thermoneutrality within 6 h, and colonic temperature (Tco) dropped concomitantly. Blood glucose (BG) concentration was halved. Oxygen consumption and Tco in the cold varied linearly with BG changes during food deprivation. 6-Hydroxydopamine transiently stimulated norepinephrine release and elevated metabolism nonadditively with cold stimulation in fed animals, and also stimulated O2 consumption. The drug also partially restored BG concentration, after it had declined during fasting. NST and BG were also restored by gastric infusion of glucose. These data suggest that the decline of NST, and the subsequent hypothermia during food deprivation, is in large part a sympathetically mediated reflex response to low cerebral BG concentration. However, glucose injection in doses sufficient to restore BG after fasting did not restore NST, nor was NST abolished by intracellular glucoprivation with 2-deoxy-D-glucose in fed rats. Thus, it is not argued that BG concentration is in itself an adequate signal for controlling NST.
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PMID:Sympathetic inhibition of thermogenesis in the infant rat: possible glucostatic control. 87 42

Quinine HCl in doses from 10-50 mg/kg lowered the body temperatures of nonfebrile rats in the cold, primarily by suppressing shivering. However, if given an opportunity to turn on a heat lamp the rats worked much more than normal after a quinine injection and were theraby able to counteract the hypothermia to some extent. The effect of quinine is interpreted as an action on effector mechanisms rather than as an alteration of the thermal setpoint.
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PMID:Quinine-induced hypothermia in cold-exposed rats. 89 91

1. Experiments with untreated mice confirmed that at ambient temperatures below 30 degrees C, the oxygen consumption rate of mice normally kept at about 23 degrees C varies inversely with ambient temperature. 2. At given ambient temperatures in the range 20 to 31 degrees C the oxygen consumption rate was 32 to 43% greater for restrained than for unrestrained mice. 3. Hypothermia induced in restrained mice by delta9-tetrahydrocannabinol (delta9-THC) (1.0 to 4.0 mg/kg i.v.) was accompanied by marked falls in the rate of oxygen consumption. The size of these falls parallelled the degree of hypothermia and increased both with increases in dose and with decreases in the ambient temperature. The oxygen consumption rates of unrestrained mice were also lowered by hypothermic doses (10 to 40 mg/kg i.p.) of delta9-THC. 4. The maximum falls in oxygen consumption rate occurred at earlier times after drug administration than the maximum falls in rectal temperature. 5. At none of the ambient temperatures studied did the oxygen consumption rates of delta9-THC-treated mice fall significantly below the basal levels (59 +/- 3 ml 25 g-1 h-1) of unrestrained, resting mice at 30 degrees C. 6. The hypothesis that reduced rates of heat production contribute significantly towards the hypothermia induced by delta9-THC in our experiments is discussed. The possibility that biological processes responsible for increased heat production in response to cold are more sensitive to delta9-THC than those processes governing basal rates of heat production at thermally neutral environmental temperature is also raised.
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PMID:Effects of delta9-tetrahydrocannabinol on the rates of oxygen consumption of mice. 90 69

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