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)

In order to minimize heat loss cold stress induces peripheral vasoconstriction via the sympathetic nervous system. This effect is most pronounced in the extremities. Vasoconstriction does not appear in the head-neck region--a fact of great importance in emergency situations. In order to compensate for heat loss shivering is an early event, where involuntary muscle contractions increase metabolic rate 2-6 fold. Early tachycardia and elevated blood-pressure, followed by progressive bradycardia and lowered pressure are common cardiovascular effects of hypothermia. Death due to ventricular fibrillation or asystole occurs between 28 degrees-25 degrees C. Cold stress causes an osmolal diuresis with sodium and chloride as the main constituents. The natriuresis is of tubular origin and could be due to impaired autoregulation in the kidney and/or depend on the natriuretic polypeptide. The augmented urine flow decreases blood volume, lowers physical working capacity and increases blood viscosity--all negative events in a hazardous situation. Sudden immersion initiates hyperventilation for 1-2 minutes with an increasing risk of drowning. Thereafter ventilation decreases to rates consistent with metabolic requirements. In severe hypothermia carbon dioxide retention causes respiratory and metabolic acidosis. Hypothermia induces progressive depression of mental functions starting with apathy and bizarre behaviour and ending in lethargy and coma often between 30 degrees-28 degrees C. The paradoxal feeling of heat with undressing in agony could depend on cerebral receptor disturbances.
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PMID:Human physiology under cold exposure. 181 74

The polypeptide mastoparan, isolated from the venom of the Oriental Hornet, Vespa orientalis, induces hypothermia in white mice 15 minutes after its intraperitoneal injection. The hypothermic effect is induced by mastoparan obtained from different hornet and wasp venoms. The normal murine core temperature is lowered by mastoparan from 38 degrees C to as far as 33 degrees C. This lowering lasts for one hour and is reversible.
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PMID:Mastoparan induces hypothermia in mice. 204 1

Solubilized crystal polypeptide preparations of Bacillus thuringiensis subsp. israelensis (BTI) were fractionated by immunoaffinity chromatography using a bound monoclonal antibody formed against the 28K crystal polypeptide. The 28K polypeptide was confirmed to be hemolytic and to possess low mosquitocidal activity against Aedes aegypti larvae. By comparison, the 28K polypeptide was more potent than the solubilized BTI crystals in male Swiss Webster mice, as the LD50 values were (p less than 0.05) 0.77 and 2.33 mg protein/kg body wt, respectively. Acute administration of the 28K polypeptide (mg/kg, ip) produced severe hypothermia and bradycardia in the mouse. No evidence for cooperativity between the 28K and other crystal polypeptides was observed. Preliminary histological examination of the mouse hearts exposed to the 28K polypeptide did not reveal any specific lesion, suggesting that the deficient cardiac performance might be a secondary physiological response. Gross pathological examination of mice as well as Sprague-Dawley rats acutely treated with equivalent doses of solubilized BTI crystal preparations revealed focal to segmental reddened and edematous areas within the small intestine. Histopathology indicated that the major lesion was in the jejunum. Contrary to expectations from in vitro hemolysis assays, cytolysis of mouse red and white blood cells was not detectable after in vivo exposure to the BTI solubilized proteins. The present results indicate that the 28K polypeptide is the mammalian toxic component of BTI crystals.
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PMID:Characterization of the mammalian toxicity of the crystal polypeptides of Bacillus thuringiensis subsp. israelensis. 279 98

The effects of intracerebroventricular (icv) vasoactive intestinal polypeptide (VIP), secretin, glucagon, and cholecystokinin-octapeptide (CCK-8) on the thermoregulatory and cardiovascular systems were studied in conscious rats. The icv injection of VIP at a dose of 10 micrograms produced hyperthermia with an increase in the positive difference between the interscapular brown adipose tissue (BAT) and colonic temperatures (TBAT-Tco), but had little effect on nonevaporative heat loss. Mean arterial blood pressure and heart rate increased following the icv VIP. The results were consistent at ambient temperatures (Ta) of 18, 23, and 28 degrees C. The icv injection of secretin at doses of 1 and 10 micrograms at Ta of 23 degrees C produced hypothermia with a decrease in (TBAT-Tco) and elevated blood pressure without any change in heart rate. The 10 micrograms of icv glucagon had no effect on the thermoregulatory and cardiovascular systems. The large dose of icv CCK-8 (10 micrograms) induced persistent hyperthermia. Nonsulfated-form CCK-8 and CCK-tetrapeptide, however, were ineffective on all variables measured. These results indicate that the central VIP activates BAT thermogenesis and induces hyperthermia, but has a minimum effect on nonevaporative heat loss. Although VIP, secretin, and glucagon have similarities in terms of chemical structure, their effects on body temperature, BAT thermogenesis, and the cardiovascular system are quite different.
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PMID:Changes in brown adipose tissue metabolism following intraventricular vasoactive intestinal peptide and other gastrointestinal peptides in rats. 279 18

Tumor necrosis factor (TNF) is a macrophage product under active study as an anticancer drug. However, this agent can be very toxic and has been implicated in the pathogenesis of endotoxic shock. After intravenous injection of human recombinant TNF (4 micrograms/g), growing rats showed an unusual constellation of physiological responses, and all died within 2-4 hr. In 1 hr, TNF caused a sharp fall (2.5 degrees C) in body temperature and a large increase in plasma prostaglandin E2 levels. Blood glucose initially increased, but then a profound hypoglycemia developed by 2 hr. The TNF-treated animals also showed diarrhea, cyanosis, and a severe metabolic acidosis. A single injection of the cyclooxygenase inhibitors indomethacin or ibuprofen before the TNF treatment completely prevented the rapid killing and reduced eventual lethality by 70%. These agents blocked prostaglandin E2 production and prevented the hypothermia, changes in blood glucose, acidosis, and other symptoms. Since similar physiological changes have been reported after endotoxin injection, our data support the suggestion that TNF production is a critical factor in the development of septic shock. These findings also indicate that increased production of prostaglandins or thromboxanes is important in endotoxic shock and argue that cyclooxygenase inhibitors should be useful in its therapy. Indomethacin did not block the cytotoxic effects of TNF in vitro on several transformed cell lines (HeLa, Me 180, or L929). Therefore, combined use of TNF with a cyclooxygenase inhibitor may allow safer administration of high doses of this polypeptide to cancer patients.
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PMID:The toxic effects of tumor necrosis factor in vivo and their prevention by cyclooxygenase inhibitors. 310 90

Intracerebroventricular injection of vasoactive intestinal polypeptide (VIP) into rat caused a temporary elevation of body temperature followed by a decrease to below the control level. Hypothermia induced by cholecystokinin octapeptide was abolished by simultaneous administration of VIP. Hypothermia following pentobarbital administration was reduced by successive injections of VIP. The results suggest that multiple interactions of neuropeptides are involved in central thermoregulation.
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PMID:Effect of intraventricular administration of vasoactive intestinal polypeptide on body temperature in the rat. 612 38

Polypeptides are endogenous agents, involved in the regulation of many physiologic functions and the pathogenesis of several diseases. Polypeptide antagonists form a group of new chemical entities which may provide valid therapeutic agents. Some polypeptides (angiotensin, kinins) are released through the action of proteolytic enzymes (renin, kallikreins) and act as hormones or autacoids; others (substance P, neurotensin) are synthetized by nervous cells to serve as neurotransmitters or neuromodulators. The main homeostatic role of the renin-angiotensin system is to uphold high systemic arterial blood pressure. Overproduction of renin and insufficient checking of renin secretion are among the most common causes of arterial hypertension. Several forms of arterial hypertension (neurovascular, idiopathic) benefit from a reduction in renin-angiotensin system activity. This is achieved either through decreasing renin secretion, by inhibiting conversion of angiotensin I into angiotensin II, or through blocking the peripheral actions (at the receptor sites) of angiotensin II. Renin secretion is very significantly reduced by beta-blocking agents (propranolol); conversion of angiotensin I into angiotensin II is inhibited by teprotide, captopril and their derivatives; peripheral actions of angiotensin II are blocked by saralasin. Bradykinin and related agents produce vasodilation, increase vascular permeability and stimulate pain fibers. Kinins thus reproduce the cardinal features of inflammation and are held to be mediators of the inflammatory reaction. The substance P neuropeptide is found in the brain and bowel; it may act as a transmitter of the sensation of pain at the spinal cord and central nervous system sites. Among other effects outside of the brain, substance P is a potent vasodilator and inhibits renin secretion. Neurotensin is a neuropeptide which produces hypothermia, muscular relaxation and analgesia. Outside of the brain, this peptide is involved in the regulation of gastric secretion, intestinal motility and insulin and glucagon secretion. The vasoactive intestinal peptide, found in certain cholinergic nerve endings, is a large peptide which inhibits gastric secretion, intestinal motility and vascular tone.
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PMID:[Polypeptides and antagonists]. 620 6

Thyrotropin-releasing hormone (TRH), a hypothalamic polypeptide, will antagonize some of pentobarbital's major effects (sleep time and hypothermia) in rodents when administered in low doses (1-10 mg/kg). At higher doses (30 and 100 mg/kg), TRH has been shown to increase the lethality of high doses of pentobarbital in mice. The present experiments demonstrated that 10 mg/kg of TRH will potentiate the conditioned flavor aversion normally induced in rats by 20 mg/kg of pentobarbital, suggesting that the TRH-pentobarbital combination may have sublethal toxic effects even at low doses of both substances. Furthermore, this result suggests that the mechanism whereby pentobarbital produces a flavor aversion is independent of the drug's hypothermic and sleep-inducing effects.
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PMID:Thyrotropin-releasing hormone (TRH) potentiates pentobarbital-based flavor aversion learning. 641 19

Resuscitation of the brain after a period of global ischemia is limited by two classes of post-ischemic pathologies: hemodynamic disturbances which prevent the adequate re-oxygenation of the ischemic brain, and metabolic disturbances which may lead to delayed neuronal death in so-called selectively vulnerable brain regions. The hemodynamic disturbances can be classified into the no-reflow phenomenon and the post-ischemic hypoperfusion syndrome. The no-reflow phenomenon results from a combination of increased blood viscosity and perivascular edema; the severity increases with the duration of ischemia, and the treatment is by combining arterial hypertension with dehydration and anticoagulation. The post-ischemic hypoperfusion syndrome is independent of the duration of ischemia, it develops after a delay and is due to an impairment of the metabolic/hemodynamic coupling mechanisms; there is no specific treatment at the present. The most important metabolic disturbance leading to delayed neuronal death is prolonged inhibition of protein synthesis. The injury is manifested already after 5 min ischemia but it progresses little if ischemia is prolonged to 1 h. Inhibition occurs at the translation level due to selective inhibition of polypeptide chain initiation. After brief periods of ischemia, the disturbance can be reversed by various anesthetics and hypothermia but there is no treatment if ischemia is prolonged. Exitotoxity, free radical-mediated reactions, disturbances of polyamine metabolism, acidosis and selective disturbances of gene expression may also be involved but are probably of lesser importance.
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PMID:Ischemia-mediated neuronal injury. 813 1

We investigated the effects of i.c.v. administration of pituitary adenylate cyclase-activating polypeptide (PACAP) on the spontaneous motor activity and reserpine-induced hypothermia in murines. The administration of PACAP (1 or 2 nmol) caused a dose-dependent increase in both spontaneous motor activity and rearing behavior in the rat. The peptide (0.1 or 0.2 nmol) counteracted reserpine-induced hypothermia in a dose-dependent manner in mice. On the other hand, i.c.v. injection of vasoactive intestinal polypeptide, which is structurally similar to PACAP, at a dose similar to that of PACAP (2 nmol in rats, 0.2 nmol n mice) did not show a significant effect on either behavior or body temperature. Therefore, the stimulating effect of PACAP observed here may be mediated by PACAP-specific (type I) receptors. PACAP was more potent and longer-lasting than a known potent stimulating peptide, thyrotropin-releasing hormone, in both stimulating motor activity and counteracting reserpine-induced hypothermia. Results of the present study, in combination with those of previous studies identifying endogenous PACAP in the brain, suggest that PACAP may play a important role in the CNS as a stimulant in regulating motor activity and body temperature.
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PMID:Effects of intracerebroventricular administration of pituitary adenylate cyclase-activating polypeptide (PACAP) on the motor activity and reserpine-induced hypothermia in murines. 862 13

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