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 neuroprotective potency of anesthetics such as propofol compared to mild hypothermia remains undefined. Therefore, we determined whether propofol at two clinically relevant concentrations is as effective as mild hypothermia in preventing delayed neuron death in hippocampal slice cultures (HSC). Survival of neurons was assessed 2 and 3 days after 1 h oxygen and glucose deprivation (OGD) either at 37 degrees C (with or without 10 or 100 microM propofol) or at an average temperature of 35 degrees C during OGD (mild hypothermia). Cell death in CA1, CA3, and dentate neurons in each slice was measured with propidium iodide fluorescence. Mild hypothermia eliminated death in CA1, CA3, and dentate neurons but propofol protected dentate neurons only at a concentration of 10 microM; the more ischemia vulnerable CA1 and CA3 neurons were not protected by either 10 microM or 100 microM propofol. In slice cultures, the toxicity of 100 muM N-methyl-D-aspartate (NMDA), 500 microM glutamate, and 20 microM alpha-amino-5-methyl-4-isoxazole propionic acid (AMPA) was not reduced by 100 microM propofol. Because propofol neuroprotection may involve gamma-aminobutyric acid (GABA)-mediated indirect inhibition of glutamate receptors (GluRs), the effects of propofol on GluR activity (calcium influx induced by GluR agonists) were studied in CA1 neurons in HSC, in isolated CA1 neurons, and in cortical brain slices. Propofol (100 and 200 microM, approximate burst suppression concentrations) decreased glutamate-mediated [Ca2+]i increases (Delta[Ca2+]i) responses by 25%-35% in isolated CA1 neurons and reduced glutamate and NMDA Delta[Ca2+]i in acute and cultured hippocampal slices by 35%-50%. In both CA1 neurons and cortical slices, blocking GABAA receptors with picrotoxin reduced the inhibition of GluRs substantially. We conclude that mild hypothermia, but not propofol, protects CA1 and CA3 neurons in hippocampal slice cultures subjected to oxygen and glucose deprivation. Propofol was not neuroprotective at concentrations that reduce glutamate and NMDA receptor responses in cortical and hippocampal neurons.
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PMID:Mild hypothermia, but not propofol, is neuroprotective in organotypic hippocampal cultures. 1561 81

Hypothermia protects against hypoxic or ischemic damage. However, the mechanisms by which brain cooling prevents hypoxic or ischemic damage are not clear. We examined whether hypothermia protects against excitotoxicity in cultured cortical cells. Exposure of cortical cell culture to 500 microM N-methyl-D-aspartate (NMDA) for 15 min at 32 degrees C or 37 degrees C did not induce neurotoxicity. On the other hand, reduction of temperature to 20 degrees C resulted in widespread neuronal disintegration by the following day. Moreover, intracellular calcium concentration increased markedly by adding NMDA to cells at 20 degrees C. These results suggest that profound hypothermia does not protect neurons from excitotoxicity by inhibiting NMDA receptor activity.
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PMID:Temperature-dependent N-methyl-D-aspartate receptor-mediated cytotoxicity in cultured rat cortical neurons. 1764 Aug 5

It is generally assumed that neuronal cell death is minimal in liver failure and is insufficient to account for the neuropsychiatric symptoms characteristic of hepatic encephalopathy. However, contrary to this assumption, neuronal cell damage and death are well documented in liver failure patients, taking the form of several distinct clinical entities namely acquired (non-Wilsonian) hepatocerebral degeneration, cirrhosis-related Parkinsonism, post-shunt myelopathy and cerebellar degeneration. In addition, there is evidence to suggest that liver failure contributes to the severity of neuronal loss in Wernicke's encephalopathy. The long-standing nature of the thalamic and cerebellar lesions, over 80% of which are missed by routine clinical evaluation, together with the probability that they are nutritional in origin, underscores the need for careful nutritional management (adequate dietary protein, Vitamin B(1)) in liver failure patients. Mechanisms identified with the potential to cause neuronal cell death in liver failure include NMDA receptor-mediated excitotoxicity, lactic acidosis, oxidative/nitrosative stress and the presence of pro-inflammatory cytokines. The extent of neuronal damage in liver failure may be attenuated by compensatory mechanisms that include down-regulation of NMDA receptors, hypothermia and the presence of neuroprotective steroids such as allopregnanolone. These findings suggest that some of the purported "sequelae" of liver transplantation (gait ataxia, memory loss, confusion) could reflect preexisting neuropathology.
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PMID:Neuronal cell death in hepatic encephalopathy. 1785 42

Accumulating evidence suggests that the serotonin 5-HT(1A) receptor may play a role in the pathophysiology of schizophrenia. The present study was undertaken to examine the effects of perospirone, an atypical antipsychotic drug with 5-HT(1A) receptor agonism, on cognitive deficits in mice after repeated administration of the NMDA receptor antagonist phencyclidine (PCP). Subsequent subchronic (14 days) administration of perospirone (1.0, 3.0, or 10 mg/kg) significantly attenuated PCP (10 mg/kg)-induced cognitive deficits in mice, in a dose-dependent manner. The effects of perospirone (10 mg/kg) were significantly antagonized by co-administration of the selective 5-HT(1A) receptor antagonist WAY100635 (1.0 mg/kg). Furthermore, hypothermia by the 5-HT(1A) receptor agonist 8-OH DPAT (0.25 mg/kg) was significantly attenuated in mice treated with PCP. Moreover, a receptor binding assay using [(3)H]WAY100635 revealed that levels of 5-HT(1A) receptors in the hippocampus, but not in the frontal cortex, of PCP-treated mice were significantly lower than those of saline-treated mice. These findings suggest that repeated PCP administration alters 5-HT(1A) receptor function in the mouse brain, and that subsequent subchronic administration of perospirone ameliorates PCP-induced cognitive deficits via 5-HT(1A) receptors. Therefore, perospirone could be a potential therapy for the cognitive deficits observed in schizophrenic patients.
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PMID:Phencyclidine-induced cognitive deficits in mice are improved by subsequent subchronic administration of the antipsychotic drug perospirone: role of serotonin 5-HT1A receptors. 1816 9

Preconditioning is a phenomenon in which the brain protects itself against future injury by adapting to low doses of noxious insults. Preconditioning stimuli include ischemia, low doses of endotoxin, hypoxia, hypothermia and hyperthermia, cortical spreading depression, anesthetics, and 3-nitropropionic acid, among others. Understanding of the mechanisms underlying preconditioning has been elusive, but NMDA receptor activation, nitric oxide, inflammatory cytokines, and suppression of the innate immune system appear to have a role. Elucidation of the endogenous cell survival pathways involved in preconditioning has significant clinical implications for preventing neuronal damage in susceptible patients.
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PMID:Preconditioning paradigms and pathways in the brain. 1854 Jan 52

There is poor experimental evidence concerning the effects of anesthetic doses of the non-competitive NMDA receptor antagonist ketamine on rodents' memory abilities. The present study was designed to investigate a) the long-term consequences of anesthetic ketamine on rats' non-spatial and spatial recognition memory; b) to evaluate whether or not these effects are related to the hypothermic properties of ketamine and c) to detect when the (amnestic) effects of ketamine on recognition memory were extinguished. For this purpose, the object recognition and the object location task were selected. Pre-training administration of ketamine (100 mg/kg; i.p.) disrupted animals' performance in the object location task and to some extent also in the object recognition paradigm indicating that anesthetic ketamine impaired both spatial and non-spatial recognition memory. Hypothermia-induced by this NMDA receptor antagonist and the type (spatial vs. non-spatial) of the behavioral paradigm utilized seem to affect rats' recognition memory recovery.
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PMID:Pre-training administration of anesthetic ketamine differentially affects rats' spatial and non-spatial recognition memory. 1937 40

Hepatic encephalopathy (HE) is a serious neuropsychiatric complication of liver failure, characterized neuropathologically by astrocyte swelling, microglial activation and Alzheimer Type II astrocytosis. Molecular studies in HE brain reveal altered expression of genes coding for key astroglial proteins including early losses of expression of GFAP and the glutamate transporter EEAT-2 with concomitant increases of the astrocytic/microglial mitochondrial benzodiazepine receptor (MBR). Decreased expression of EAAT-2 results in decreased glutamate transport and impaired cycling of glutamate-glutamine between astrocytes and neurons, as well as increased extracellular glutamate, activation of the NMDA receptor-mediated cGMP-NO signal transduction pathway, and nitration of tyrosine residues on key astroglial proteins such as glutamine synthetase (GS) and the MBR. GS is uniquely responsible for the removal of excess ammonia in brain. Ammonia-induced activation of MBR in astrocytes and/or microglia results in stimulation of the synthesis of neurosteroids such as allopregnanolone with positive allosteric GABA-A receptor neuromodulatory properties. Allopregnanolone concentrations are increased up to 7-fold in HE brain. Attenuation of microglial activation by minocycline results in a delay in onset of HE and prevents brain edema in liver failure. Mild hypothermia is likewise beneficial in acute liver failure resulting in normalization of extracellular brain glutamate and prevention of oxidative/nitrosative stress in experimental animals with HE resulting from either ischemic or toxic liver injuries.
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PMID:Altered glial-neuronal crosstalk: cornerstone in the pathogenesis of hepatic encephalopathy. 2035 May 77

The neonatal brain hypothermia is one of the effective therapies for neonatal hypoxic-ischemic encephalopathy (HIE). The brain hypothermia is thought to protect the brain from the secondary energy failure after hypoxic-ischemic injury at asphyxia. Some literature wrote the effect for neuronal protection for HIE, but the effect is insufficient for severe one. In severe HIE, the basal ganglia regions are injured with ischemic change in the brain MRI findings and occurred the severe permanent handicaps. I think that the reason for fragile of basal ganglia region are related to the existence of NMDA receptor. So, we have to study and develop the new strategy for neuronal protection in HIE.
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PMID:[Neonatal brain hypothermia]. 2140 Aug 51

Toluene, a widely used and commonly abused organic solvent, produces various behavioral disturbances in both humans and animals. Blockade of N-methyl-d-aspartate (NMDA) receptors has been suggested to play a critical role in acute toluene-induced behavioral manifestations. Activation of type 5 metabotropic glutamate receptors (mGluR5) attenuates behavioral responses induced by NMDA receptor blockade. The present study elucidated the role of mGluR5 on toluene-induced behavioral and hypothermic responses. Male Sprague-Dawley rats received the mGluR5 agonist (RS)-2-chloro-5-hydroxyphenylglycine (CHPG) or antagonist 6-methyl-2-[phenylethynyl]-pyridine (MPEP) prior to toluene administration. Rotarod test, step-down inhibitory avoidance learning task, and rectal temperature were monitored. Pretreatment of CHPG and MPEP attenuated and potentiated these toluene-induced responses, respectively. In addition, the inhibitory effects of CHPG on toluene-induced motor incoordination, learning impairment, and hypothermia were reversed by the protein kinase C (PKC) inhibitor chelerythrine chloride. These findings suggest that mGluR5 may modulate the neural circuits responsible for motor incoordination, learning impairment, and hypothermic action of toluene through a PKC-dependent signal transduction pathway.
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PMID:Metabotropic glutamate receptor 5 modulates behavioral and hypothermic responses to toluene in rats. 2302 60

Toluene, a widely used and commonly abused organic solvent, produces various behavioral disturbances, including motor incoordination and cognitive impairment. Toluene alters the function of a large number of receptors and ion channels. Blockade of N-methyl-d-aspartate (NMDA) receptors has been suggested to play a critical role in toluene-induced behavioral manifestations. The present study determined the effects of various toluene doses on motor coordination, recognition memory, body temperature, and intracranial self-stimulation (ICSS) thresholds in mice. Additionally, the effects of sarcosine on the behavioral and physiological effects induced by toluene were evaluated. Sarcosine may reverse toluene-induced behavioral manifestations by acting as an NMDA receptor co-agonist and by inhibiting the effects of the type I glycine transporter (GlyT1). Mice were treated with toluene alone or combined with sarcosine pretreatment and assessed for rotarod performance, object recognition memory, rectal temperature, and ICSS thresholds. Toluene dose-dependently induced motor incoordination, recognition memory impairment, and hypothermia and lowered ICSS thresholds. Sarcosine pretreatment reversed toluene-induced changes in rotarod performance, novel object recognition, and rectal temperature but not ICSS thresholds. These findings suggest that the sarcosine-induced potentiation of NMDA receptors may reverse motor incoordination, memory impairment, and hypothermia but not the enhancement of brain stimulation reward function associated with toluene exposure. Sarcosine may be a promising compound to prevent acute toluene intoxications by occupational or intentional exposure.
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PMID:Sarcosine attenuates toluene-induced motor incoordination, memory impairment, and hypothermia but not brain stimulation reward enhancement in mice. 2306 21

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