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)

Microinfusion of bombesin into the lateral ventricles (LV) of rats pretreated with insulin or acutely deprived of food has been demonstrated to reduce core body temperature. Lesions of the ventromedial hypothalamus (VMH) have been shown to produce hyperphagia, hyperinsulinemia, and to alter serum metabolic fuels. The present study examines VMH lesions as a permissive event in bombesin-induced hypothermia in rats tested at normal ambient temperature. A between-group design was used to evaluate the effect of microinjections of bombesin (1, 10, 100 ng) into the LV of rats with bilateral VMH lesions or sham lesions. Core body temperature was recorded over a 240-min period. In animals with lesions of the VMH, hypothermia was demonstrated by 30 min after injection of the 10 ng and 100 ng doses; the hypothermia persisted for 120 min. The 1 ng dose had no effect on body temperature in VMH-lesioned animals. Animals that received sham lesions of the VMH did not demonstrate a reduction in core body temperature at the maximum effective dose (100 ng) of bombesin. These results suggest that some event(s) associated with bilateral VMH lesions acts as a permissive factor in the production of bombesin-induced hypothermia at normal ambient temperature.
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PMID:Bombesin-induced hypothermia in VMH-lesioned rats. 822 Nov 61

Intraventricular injection of insulin-like growth factor 1 (IGF-1) 2 h after hypoxic-ischemic injury reduces neuronal loss. To clarify the mode of action, we compared histological outcome between treatment groups in the following three studies: 0, 0.5, 5, and 50 micrograms IGF-1 given 2 h after injury; 0 and 20 micrograms IGF-1 given 1 h before; and 20 micrograms IGF-1 and insulin or vehicle alone given 2 h after. Unilateral hypoxic-ischemic injury was induced in adult rats by ligation of the right carotid and exposure to 6% O2 for 10 min. Histological outcome was evaluated in the cortex, striatum, and hippocampus 5 days later. Five to 50 micrograms IGF-1 reduced the incidence of infarction and neuronal loss in a dose-dependent manner in all regions (p < 0.05), and 50 micrograms reduced the infarction rate from 87 to 26% (p < 0.01). Pretreatment did not alter outcome. IGF-1 improved outcome compared with equimolar doses of insulin (p < 0.05) and did not affect systemic glucose concentrations or cortical temperature. The results indicate that the neuronal protective effects of IGF-1 are specific and are not mediated via insulin receptors, hypothermia, or hypoglycemic mechanisms. Centrally administered IGF-1 appears to provide worthwhile trophic support to cells within most cerebral structures after transient hypoxic-ischemic injury.
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PMID:The effects of IGF-1 treatment after hypoxic-ischemic brain injury in adult rats. 831 14

Infants undergoing open-heart surgery with hypothermic cardiopulmonary bypass experience markedly elevated lactate and glucose levels. Reports in infants less than 10 kg show the elevated lactate to be progressive during the operative period. The pathogenesis of the hyperglycemia is not clear but may be caused by excess glucose administration, inadequate insulin response, or glucose regulatory hormone levels of glucagon, cortisol, and growth hormone. The purpose of this study is to confirm these findings and to investigate their pathogenesis. Serial blood samples were taken preoperatively, intraoperatively, and postoperatively during hypothermic cardiopulmonary bypass in nine infants of less than 10 kg. Samples were analyzed for levels of lactate, glucose, and regulatory hormones insulin, growth hormone, glucagon, and cortisol. Our study did not show a progressive accumulation of lactate. The elevated lactate level appears to come from the pump prime solution. The hyperglycemia is also from the pump prime solution, and there do not appear to be elevated levels of regulatory hormones intraoperatively. Insulin response during hypothermia is blunted; however, on rewarming the patient in the immediate postoperative period, a brisk insulin response is seen. The changes in levels of lactate and glucose and the regulatory hormones return to baseline at 24 hours with no further significant changes in the next 48 hours.
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PMID:Lactic acid changes during and after hypothermic cardiopulmonary bypass in infants. 847 97

This study examined whether the 8 weeks of initial medical training and 9 d re-certification every 3 yr given to Canadian Forces (CF) Search and Rescue Technicians (SAR Techs) was satisfactory. The course content was compared with 272 held medical case documents for the period 1990-93, inclusive. This practical medical care data showed a predominance of trauma rescue cases: 35% were life threatening conditions and 65% were non-life threatening conditions. They ranged from trauma, chest pain, abdominal pain, hypothermia, diabetic insulin overdose to stroke and gynecological bleeding. Of the life-threatening cases, 32% needed advanced treatment skills and 15% of the non-life threatening cases needed advanced treatment skills. It was concluded that the content of the initial and re-certification medical training was satisfactory as long as immediate transport to a specialist medical center was possible.
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PMID:A review of Canadian Forces Search and Rescue Technician medical training and operations, 1990-93. 872 79

The aim of the study was to investigate the effect of hypothermia on (125J)-insulin binding to rat skeletal muscle membranes and to determine whether the decrease in blood insulin concentration could be related to changes in the number or in the affinity of insulin receptor sites according to the down-regulation theory. Rat skeletal muscle membranes were prepared from control, normothermic rats (Tr = 35.6 +/- 0.3 degree C) and hypothermic rats (Tr = 26.0 +/- 0.5 degree C) and purified according to Havrankowa. In order to determine the kinetic parameters of the hormone-receptor interaction the data from the competition binding studies were analysed by the method of Scatchard using the LIGAND Pc.v.3.1. computer program of Munson and Rodbard. We have shown that under hypothermic conditions insulin receptors number is significantly increased in specific hindlimb skeletal muscles but the changes take place mainly in the low affinity receptors class. The phenomenon probably results from the lack of spare high affinity insulin receptors in skeletal muscle as shown recently by Camps et al.
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PMID:Effect of hypothermia on the insulin-receptor interaction in skeletal muscle plasma membranes. 880 58

The present study was designed to test the hypothesis that hypoglycemia induces hypothermia in ectotherms and to elucidate the mechanisms responsible for behavioral hypothermia. Behavioral hypothermia is a stress response that occurs in organisms ranging from protozoans to mammals, but very little is known about the cellular mechanisms involved. Toads equipped with a temperature probe were tested in a thermal gradient (10-40 degrees C). Insulin was used to reduce plasma glucose levels, and an inhibitor of glucose utilization, 2-deoxy-D-glucose (2-DG), was used to cause intracellular glucopenia. Insulin injections into the dorsal lymph sac caused significant reductions of both plasma glucose levels and body temperature. To determine if the response was mediated by extracellular glucose receptors or an intracellular mechanism. 2-DG was also injected into the lymph sac. 2-DG caused a similar drop in body temperature and a marked increase in plasma glucose. To assess the role of central thermoregulatory mechanisms, a smaller dose of 2-DG was injected into the fourth cerebral ventricle or the lymph sac. Intracerebroventricular injection of 2-DG caused a decrease in body temperature despite elevated circulating glucose levels, whereas injection into the lymph sac caused no significant change. The data indicate that exclusion of glucose from central rather than peripheral sites plays a major role in the hypoglycemia-induced behavioral hypothermia and that intracellular mechanisms rather than extracellular glucose receptors are involved in this response. Hypothermia may be a beneficial response to hypoglycemia in toads because it dampens cellular oxidative demands during glucose deprivation.
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PMID:Effects of 2-deoxy-D-glucose and insulin on plasma glucose levels and behavioral thermoregulation of toads. 903 84

In the present study we examined the impact of glycolysis and glucose oxidation on myocardial calcium control and mechanical function of fatty acid-perfused rat hearts subjected to hypothermia rewarming. One group (control) was given glucose (11.1 mM) and palmitate (1.2 mM) as energy substrates. In a second group glycolysis was inhibited by iodoacetate (IAA, 100 microM) and replacement of glucose with pyruvate (5 mM), whereas in the third group glucose oxidation was stimulated by administration of dichloroacetate (DCA, 1 mM) and insulin (500 microU/ml). All groups showed a rise in myocardial calcium ([Ca]total in response to hypothermia (10 degrees C). However, [Ca]total was significantly lower both in IAA- and DCA-treated hearts, as compared to controls (2.20 +/- 0.22 and 2.94 +/- 0.20 v 3.83 +/- 0.29 nmol/mg dry wt., P < 0.025). The reduced calcium load in the treated hearts was correlated with higher levels of high energy phosphates. Following rewarming control and DCA-treated hearts still showed elevated [Ca]total, whereas IAA-treated hearts [Ca]total was not different from the pre-hypothermic value. All groups showed a reduction in cardiac output following rewarming. Furthermore, the control group, in contrast to both IAA- and DCA-treated hearts, showed a significant reduction in systolic pressure. These results show that hypothermia-induced calcium uptake in glucose and fatty acid-perfused rat hearts was reduced by two different metabolic approaches: (1) inhibition of glycolysis by IAA while simultaneously by-passing the glycolytic pathway by exogenous pyruvate: and (2) stimulation of glucose oxidation by DCA. Thus, glycolytic ATP is not an essential regulator of sarcolemmal calcium transport under the present experimental conditions. Instead, we suggest that a change in oxidative substrate utilization in favour of carbohydrates may improve myocardial calcium homeostasis during hypothermia and rewarming.
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PMID:Stimulation of carbohydrate metabolism reduces hypothermia-induced calcium load in fatty acid-perfused rat hearts. 914 Aug 12

The main purpose of intensive insulin therapy in insulin-dependent diabetes mellitus is to prevent complications by maintaining short- and long-term euglycaemia. This therapeutic approach implies a high frequency of hypoglycaemic events which can be disturbing when hypoglycaemia unawareness is involved. Although this phenomenon can be reversed, it may lead to discontinuance of intensive insulin therapy. This paper concerns the case of a young insulin-dependent patient with early onset diabetes who had frequent severe occurrences of hypoglycaemia with convulsions, hypothermia, bradycardia and coma. These events were associated with hypoglycaemia unawareness not due to autonomic neuropathy. A defect in counterregulation was demonstrated during hypoglycaemic-hyperinsulinaemic clamp, expressed as a reduction of adrenaline response. A positive pattern of anti-adrenal medullary antibodies suggested that a functional defect of the adrenal medulla plays a role in the pathogenesis of hypoglycaemia unawareness.
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PMID:Hypoglycaemia unawareness in a young boy with insulin-dependent diabetes mellitus and anti-adrenal medullary antibodies. 949 60

Hypoxia elicits a number of compensatory responses in animals, including behavioral hypothermia. The hypothesis that hypoglycemia induces hypothermia in the bullfrog Rana catesbeiana was tested and that this behavioral response would be beneficial. Frogs equipped with a temperature probe were tested in a thermal gradient (10-40 degrees C). Insulin (15 IU kg-1) caused significant reduction of body temperature, from 25.0 to 17.8 degrees C. A non-metabolizable glucose analogue, 2-deoxy-D-glucose (2-DG, 50 mg kg-1), which blocks intracellular glucose utilization, was also injected and caused a similar drop in body temperature, despite an increase in plasma glucose levels. To assess the possible benefits of hypoglycemia-induced hypothermia, the effects of insulin and 2-DG injections were measured on plasma glucose concentration and on oxygen consumption of frogs equilibrated at 10, 20 and 30 degrees C. The plasma glucose was elevated at higher temperatures and so was oxygen consumption. The insulin caused a significant reduction of plasma glucose concentration (about 1.22 muMol ml-1) whereas 2-DG caused a significant increase (about 0.70 muMol ml-1) at 30 degrees C. Both drugs caused a reduction of oxygen consumption (approximately 0.388 and 0.382 ml min-1 kg at 30 degrees C after insulin and 2-DG injection, respectively). No effect of either insulin or 2-DG was observed when the animals were equilibrated at 10 degrees C. In conclusion, hypothermia may be a beneficial response to hypoglycemia in frogs.
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PMID:Physiological significance of behavioral hypothermia in hypoglycemic frogs (Rana catesbeiana). 977 88

Exposure to a temperature of 14 degrees C was used to induce a progressive hypothermia in fourteen conscious newborn piglets. Heat production, body (rectal) and skin (between the shoulders) temperatures and shivering intensity assessed as the electromyographic activity (EMG) of longissimus thoracis muscle were measured until body temperature reached 30 degrees C and during a recovery period of 2 h at an ambient temperature of 24 degrees C (n = 7) or 34 degrees C (n = 7). During body cooling, heat production increased up to 9.67 +/- 1.28 W (kg BW)-1, but started to decrease below a body temperature threshold of 34.4 +/- 0.7 degrees C. EMG activity increased (P < 0.023) curvilinearly during body cooling; the main increase occurred between body temperatures of 38 and 33 degrees C (+142%, P < 0.001), and changes in EMG activity between 33 and 30 degrees C were not significant (+18%, P > 0.1). A marked increase in circulating levels of glucose (+312%, P < 0.001), glucagon (+76%, P < 0.05), adrenaline (+172%, P < 0.05) and noradrenaline (+113%, P < 0.05) occurred during body cooling. Insulin levels were not detectable at 2 h of life and increased during body cooling. During 2 h of rewarming at 24 degrees C, heat production and EMG activity remained elevated, changes in carbohydrate metabolism were not completely reversed and the final body temperature was only 35.6 +/- 0.9 degrees C. Rewarming of the piglets was faster at 34 degrees C. There was a net influx of heat into the animals and heat production and shivering activity decreased when body temperature reached 33.9 +/- 0.5 degrees C; the final body temperature was 37.5 +/- 0.2 degrees C. Circulating levels of lactate, glucagon and catecholamines returned to control levels. These results show that in conscious piglets exposed to a constant cold temperature there is an inverse relationship between EMG activity and body temperature during moderate hypothermia and that the thermoregulatory response and carbohydrate metabolism of the piglet are seriously impaired below a body temperature of 34 degrees C.
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PMID:Thermoregulatory responses of the newborn pig during experimentally induced hypothermia and rewarming. 979 87

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