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 behavioral effects of the TRH analogue RX77368, dimethyl proline-TRH (3, 10 and 30 mg/kg IP), in 5-, 10- and 20-day-old rat pups were investigated. The peptide induced shaking behavior and increased locomotion as early as 5 days after birth. At 20 days RX77368 also produced rearing, stereotyped mounting and grooming (mainly licking and chewing of the forepaws). Additionally, RX77368 produced hypothermia and antinociception in the infant rats. These responses, which were generally, although not always, comparable with those found in adults, agree with biochemical studies showing high levels of TRH receptors in the brain and spinal cord in the first three weeks following birth.
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PMID:Behavioral profile of the TRH analogue RX77368 in developing rats. 212 22

This study measured the velocity of fast orthograde axonal transport of incorporated 3H-proline in motoneurones of the sciatic nerve in control rats and in rats with streptozotocin-induced diabetes of 3 weeks duration. Sciatic nerve and abdominal cavity temperatures were monitored throughout the period of measurement of transport velocity, and the rats were warmed to minimise hypothermia at both sites. There was marked abdominal and sciatic nerve hypothermia immediately after operation, and this effect was more intense in diabetic rats than in control rats. In steady state, abdominal cavity temperature (mean +/- SEM) was 38.1 +/- 0.1 degree C in both control and diabetic rats, and the sciatic nerve temperatures were 37.8 +/- 0.1 degree C in controls and 37.1 +/- 0.3 degrees C in diabetic rats. The difference was not statistically significant. The velocities of orthograde axonal transport for the fastest molecules containing 3H-proline were 14.0 +/- 0.9 (SEM)mm/h for controls and 13.9 +/- 1.1 (SEM)mm/h for diabetic rats. Thus, no velocity difference was observed. The findings are discussed in relation to measurements of fast orthograde transport velocity in experimental diabetes in other studies. It is suggested that, where velocity deficits have been seen in diabetic rats, nerve hypothermia should be considered as a contributory factor.
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PMID:Fast orthograde axonal transport in sciatic motoneurones and nerve temperature in streptozotocin-diabetic rats. 241 4

This study measured the velocity of the fast anterograde axonal transport of [3H]-proline-labelled proteins in sciatic motoneurones of rats with streptozotocin diabetes of 12 weeks duration and in age matched controls. Four groups of diabetic animals were studied. One of these groups remained untreated whilst 2 diabetic groups received a long-acting insulin twice weekly to limit body wasting, but to permit regular hyperglycaemia. One insulin-treated group and one other diabetic group received an aldose reductase inhibitor, "Statil" (ICI 128436) by dietary admixture. Neither diabetes alone nor any of the treatment regimes produced any significant alteration of axonal transport velocity. Sciatic nerve temperature was measured concomitantly. A slight nerve hypothermia was seen in the untreated diabetic rats, but not in either insulin-treated group. It is concluded that 2 aspects of diabetes mellitus, namely persistent hyperglycaemia and polyol pathway activity in nervous tissue are without effect on the velocity of fast orthograde axonal transport of proteins.
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PMID:Fast anterograde axonal transport in wasted and non-wasted diabetic rats; effects of aldose reductase inhibition. 243 44

1. Intraperitoneal (i.p.) injection of diazepam (1.5-6 mg/kg) decreased the core body temperature (BT) of the rats. The effect was dose-dependent. 2. The hypothermia produced by diazepam (6 mg/kg, i.p.) was decreased in animals pretreated with high doses of bicuculline (BIC, 3 mg/kg, i.p.), while low doses of BIC (1.5 mg/kg, i.p.) potentiated the hypothermia. 3. Picrotoxin (PIC, 1 and 2 mg/kg, i.p.) pretreatment also decreased the hypothermic effect of diazepam. 4. Pretreatment of animals with atropine (AT, 10 mg/kg, i.p.) or propranolol (PRO, 10 mg/kg, i.p.) potentiated the hypothermic response of diazepam. Phenoxybenzamine (PHEN, 0.5 mg/kg, i.p.), methergoline (METH, 0.5 mg/kg, i.p.) or pimozide (PIM, 0.5 mg/kg, i.p.) did not change the diazepam hypothermia. 5. Single administration of BIC, PIC, PRO, PIM or METH also induced hypothermia. 6. One can postulate that diazepam hypothermia may be induced through GABAA receptor sites. However, further studies will clarify this hypothesis.
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PMID:Involvement of GABAA receptor sites in diazepam hypothermia. 257 24

The effects of thyrotropin-releasing hormone (TRH) and its putative metabolite, cyclo-histidine-proline (cHP), on the homeothermic development of neonatal rats were studied. The daily intrathecal administration of 10(-11)-10(-9) moles of TRH during the second week of age produced a significant rise in body temperature by 3 weeks of age and was followed by a transient period of hypothermia. This effect, which could not be produced by an intraperitoneal injection of 10(-7) moles of TRH, was abolished by the simultaneous administration of 6-hydroxydopamine (6OHD). In contrast, intrathecally administered cHP decreased thermogenesis. During TRH treatment, brain norepinephrine (NE) and dopamine (DA) release was accelerated 2- to 4-fold. Two weeks after either TRH or cHP treatment, brain NE and DA were significantly reduced; adrenal NE in cHP-treated rats increased. The weight of the interscapular brown adipose tissue (BAT) was decreased by both cHP and 6OHD. At 3 weeks of age, [3H]guanosine diphosphate binding capacity in BAT mitochondria was reduced by 60% in TRH-treated rats and was associated with reduced mitochondrial levels of alpha-glycerophosphate dehydrogenase and liver cytochrome C reductase. These results indicate that TRH stimulates central NE release thereby enhancing thermogenesis, cHP decreases heat production, and TRH-induced hyperthermia is associated with changes in mitochondrial exothermic processes. The central TRH-cHP system may modulate the maturation of homeothermic mechanism in neonatal rats.
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PMID:Effects of thyrotropin-releasing hormone and cyclo-histidine-proline on the homeothermic development of neonatal rats. 309 34

Reconstruction techniques for major vessels and intracardiac defect repair use synthetic grafts or autogenic pericardium. Here, autologous abdominal parietal peritoneum with the overlying posterior rectus sheath as a biologic membrane are evaluated. Twelve adult canines were used. Via a midline subumbilical incision, the parietal peritoneum and overlying posterior rectus sheath were harvested. In the first group of six, the membrane was used to repair the right ventricular infundibulum and perform pulmonary artery annuloplasty. In the second group of six, under cardiopulmonary bypass and moderate hypothermia, the right atrium was opened and a secundum type defect was created. Autopsies performed 90 days after surgery revealed mild intrapericardial adhesions and moderate pericardial reaction over the cardiotomy incisions. The right ventricular outflow tract patch was nonaneurysmal. The interatrial patch was intact without thrombi. Histologic examination revealed intact membrane morphology, fibroblasts, smooth muscle cells, and endothelialization. Proline C14 uptake and autoradiography detected cellular viability of implanted membranes. These findings suggest that the peritoneum with overlying sheath repaired vascular and intracardiac defects and substituted for pericardium. Future studies are needed before clinical use.
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PMID:A new biologic membrane in cardiovascular surgery. 915 84

The following NEKY have been studied: 1-kynurenine (KYN), 3-hydroxyKYN (3HKYN), kynurenic (KYNA), anthranilic (ANT), 3-hydroxyANT (3HANT), quinolinic (QUIN), picolinic (PICA), xanthurenic (XAN), nicotinic (NIC) acids, 3-indole-pyruvate (IPA), nicotinamide (NAM). NEKY antagonize the central effects of precursors of serotonin (tryptophan and 5-HTP), and tryptamine as well. Seizures induced by central administration of KYN and QUIN are prevented by centrally injected dopamine and diminished by noradrenaline and adrenaline. KYN, 3HANT, PIC and NIC potentiate oxotremorine hypothermia mediated by acetylcholine. Central administration of GABA, glycine or taurine, as well as proline and melatonin, prevented seizures induced by QUIN and KYN. Behavioral inhibitory effects of these amino acids are diminished by pretreament with KYN, 3HKYN and QUIN. Elevation of concentrations of corticosteroids is resulted in rise of level of NEKY due to hormonal induction of liver tryptophan pyrrolase and brain 2,3 dioxigenase. NEKY, in their turn, activate both enzymes. Thus, a "vicious circle" is formed and it supports an elevated level of NEKY for a long time, hours and days. Long-lasting increased concentrations of NEKY in tissues can lead to significant after-effects and numerous pathogenic consequences. One can not exclude that a rise of the level of some NEKY, e.g. KYNA, IPA, PIC and XAN, may play an "adaptogenic" role in stress antagonizing some pathologic effects of KYN and QUIN, e.g. anxiogenic, neurotoxic and proconvulsive. It has been demonstrated that the excitatory NEKY, KYN, 3HKYN, QUIN, possess an anxiogenic activity in the standard animal models of anxiety. NEKY with opposite neuroactivities, namely KYNA, IPA, PICA and XAN, have a pharmacological profile of anxiolytics and antagonize both anxiogenic NEKY and standard anxiogens, like caffeine, pentylenetetrazole and yohimbine. Major emphasis is made on KYN as a putative endogenous anxiogen. Studies on the interaction of NEKY with other endogenous metabolites involved in anxiety (beta-phenylethylamine, cholecystokynine, melatonin) are in progress.
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PMID:Neurokynurenines (NEKY) as common neurochemical links of stress and anxiety. 1520 24

It is now well established that neurons and other cell types may die many hours or even days after hypoxic-ischemic injury due to activation of programmed cell death (apoptotic) pathways. The potent anti-apoptotic factor IGF-1 and its binding proteins and receptors are intensely induced within damaged brain regions following brain injury suggesting a possible a role for IGF-1 in endogenous brain recovery. Exogenous administration of IGF-1 within a few hours after brain injury has now been shown to be protective in both grey and white matter, and leads to improved long-term neurological function. The limited window of opportunity for treatment with IGF-1 can be extended by spontaneous mild post-hypoxic hypothermia, probably due to delayed evolution of apoptotic processes. The efficacy of IGF-1 is specific to particular cellular phenotypes and brain regions, and its neuroprotective effects are mediated by IGF-1 receptors and binding proteins. Intriguingly its naturally cleaved N-terminal tripeptide (glycine-proline-glutamate, GPE) has been demonstrated to be neuroprotective after both central and peripheral administration. Peripheral administration of GPE also prevents the loss of dopamine neurons and improves long-term functional recovery following 6-OHDA lesion. However, GPE is unlikely to contribute significantly to the direct effects of IGF-1.
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PMID:Treatment in animal models. 1587 86

While alterations in dopamine (DA) uptake appear to be a critical mechanism underlying locomotor and reinforcing effects of cocaine (COC), many centrally mediated physiological and affective effects of this drug are resistant to DA receptor blockade and are expressed more quickly following an intravenous (i.v.) injection than expected based on the dynamics of drug concentration in the brain. Because COC is also a potent local anesthetic, its rapid action on Na+ channels may be responsible for triggering these effects. We monitored temperatures in the nucleus accumbens, temporal muscle and skin together with conventional locomotion during a single i.v. injection of COC (1 mg/kg), procaine (PRO, 5 mg/kg; equipotential anesthetic dose), a short-acting local anesthetic drug that, like COC, interacts with Na+ channels, and cocaine methiodide (COC-MET, 1.31 mg/kg, equimolar dose), a quaternary COC derivative that is unable to cross the blood-brain barrier. In this way, we explored not only the importance of Na+ channels in general, but also the importance of central vs. peripheral Na+ channels specifically. COC induced locomotor activation, temperature increase in the brain and muscle, and a biphasic temperature fluctuation in skin. Though PRO did not induce locomotor activation, it mimicked, to a greater degree, the temperature effects of COC. Therefore, Na+ channels appear to be a key substrate for COC-induced temperature fluctuations in the brain and periphery. Similar to PRO, COC-MET had minimal effects on locomotion, but mimicked COC in its ability to increase brain and muscle temperature, and induce transient skin hypothermia. It appears therefore that COC's interaction with peripherally located Na+ channels triggers its central excitatory effects manifested by brain temperature increase, thereby playing a major role in drug sensing and possibly contributing to COC reinforcement.
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PMID:The role of peripheral Na(+) channels in triggering the central excitatory effects of intravenous cocaine. 1693 Apr 44

Brain ischemia induces the IGF-1 system in damaged regions, and exogenous administration of IGF-1 after injury is neuroprotective and improves long-term neurological function. The short treatment window can be extended by mild hypothermia, probably due to delayed apoptosis. Nevertheless, the poor central uptake of IGF-1 and its mitogenic potential preclude clinical application. The N-terminal tripeptide of IGF-1 (glycine-proline-glutamate, GPE) is neuroprotective after central administration. Central uptake of GPE is injury dependent, and it is rapidly degraded in the plasma. Intravenous infusion of GPE prevents brain injury and improves long-term functional recovery, with a broad effective dose range and a 3-7 hour therapeutic window. GPE does not interact with IGF receptors. G-2meth-PE, a GPE analogue with improved stability, has a prolonged plasma half life and is neuroprotective after ischemic injury. Neuroprotection by GPE and its analogue may involve modulating inflammation, promoting astrocytosis and inhibiting apoptosis, and the analogue may have a vascular effect. Cyclo-glycyl-proline (cGP) is an endogenous diketopiperazine possibly derived from GPE. Cyclic GP and its analogue cyclo-L-glycyl-L-2-allylproline (cG-2allylP) are neuroprotective after ischemic injury. cG-2allylP crosses the BBB independent of injury and remains detectable several hours after a single administration. Repeated peripheral administration of cG-2allyP improves somatosensory-motor function and long-term histological outcome.
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PMID:Insulin-like growth factor-1 and its derivatives: potential pharmaceutical application for ischemic brain injury. 1853 71

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