Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020672 (hypothermia)
 17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ghrelin is an orexigenic peptide with prokinetic effects in the rat. We investigated the effect of ghrelin and growth hormone-releasing hormone 6 (GHRP-6) on gastric emptying and transit in control and septic mice. Mice were injected i.p. with lipopolysaccharides (LPS) or saline (control). After 16-17 h mice were pretreated with saline, ghrelin or GHRP-6 1 h before intragastric administration of Evans blue. Fifteen minutes later, after assessment of the behaviour scale, mice were killed and gastric emptying, transit and rectal temperature were measured. In control mice, ghrelin (100 microg kg(-1)) and GHRP-6 (20-100 microg kg(-1)) accelerated gastric emptying, whereas ghrelin and GHRP-6 failed to increase transit significantly. Septic mice developed a delay in gastric emptying and transit, hypothermia and a deterioration of the behaviour scale. In septic mice, ghrelin (20 microg kg(-1)) accelerated gastric emptying without effect on transit while GHRP-6 significantly accelerated gastric emptying dose-dependently and failed to increase transit significantly. Ghrelin and GHRP-6 had no effect on the endotoxin-induced hypothermia or deterioration of behaviour scale. Therefore, the beneficial prokinetic effect of ghrelin but mainly of GHRP-6 offers potential therapeutic options in the treatment of septic gastric ileus.
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PMID:Effect of ghrelin and growth hormone-releasing peptide 6 on septic ileus in mice. 1530 99

This study aimed to model long-term subtoxic human exposure to an organophosphorus pesticide, chlorpyrifos, and to examine the influence of that exposure on the response to intermittent high-dose acute challenges. Adult Long-Evans male rats were maintained at 350 g body weight by limited access to a chlorpyrifos-containing diet to produce an intake of 0, 1, or 5 mg/kg/day chlorpyrifos. During the year-long exposure, half of the rats in each dose group received bi-monthly challenges (spikes) of chlorpyrifos, and the other half received vehicle. Rats were periodically tested using a neurological battery of evaluations and motor activity to evaluate the magnitude of the acute response (spike days) as well as recovery and ongoing chronic effects (non-spike days). Effects of the spikes differed as a function of dietary level for several endpoints (e.g., tremor, lacrimation), and in general, the high-dose feed groups showed greater effects of the spike doses. Animals receiving the spikes also showed some neurobehavioral differences among treatment groups (e.g., hypothermia, sensory and neuromotor differences) in the intervening months. During the eleventh month, rats were tested in a Morris water maze. There were some cognitive deficits observed, demonstrated by slightly longer latency during spatial training, and decreased preference for the correct quadrant on probe trials. A consistent finding in the water maze was one of altered swim patterning, or search strategy. The high-dose feed groups showed more tendency to swim in the outer annulus or to swim very close to the walls of the tank (thigmotaxic behavior). Overall, dietary exposure to chlorpyrifos produced long-lasting neurobehavioral changes and also altered the response to acute challenges.
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PMID:Neurobehavioral effects of chronic dietary and repeated high-level spike exposure to chlorpyrifos in rats. 1590 19

Most toxicity data are based on studies using single compounds. This study assessed if there is an interaction between mixtures of the anticholinesterase insecticides chlorpyrifos (CHP) and carbaryl (CAR) using hypothermia and cholinesterase (ChE) inhibition as toxicological endpoints. Core temperature (T(c)) was continuously monitored by radiotelemetry in adult Long-Evans rats administered CHP at doses ranging from 0 to 50mg/kg and CAR doses of 0-150 mg/kg. The temperature index (TI), an integration of the change in T(c) over a 12h period, was quantified. Effects of mixtures of CHP and CAR in 2:1 and 1:1 ratios on the TI were examined and the data analyzed using a statistical model designed to assess significant departures from additivity for chemical mixtures. CHP and CAR elicited a marked hypothermia and dose-related decrease in the TI. The TI response to a 2:1 ratio of CHP:CAR was significantly less than that predicted by additivity. The TI response to a 1:1 ratio of CHP and CAR was not significantly different from the predicted additivity. Plasma and brain ChE activity were measured 4h after dosing with CHP, CAR, and mixtures in separate groups of rats. There was a dose-additive interaction for the inhibition of brain ChE for the 2:1 ratio, but an antagonistic effect for the 1:1 ratio. The 2:1 and 1:1 mixtures had an antagonistic interaction on plasma ChE. Overall, the departures from additivity for the physiological (i.e., temperature) and biochemical (i.e., ChE inhibition) endpoints for the 2:1 and 1:1 mixtures studies did not coincide as expected. An interaction between CHP and CAR appears to depend on the ratio of compounds in the mixture as well as the biological endpoint.
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PMID:Thermoregulatory response to an organophosphate and carbamate insecticide mixture: testing the assumption of dose-additivity. 1618 29

Although nicotine and ethanol are often used together, little is known about their combined effects on visual system electrophysiology. This experiment examined the separate and combined effects of nicotine and ethanol on flash-evoked potentials (FEPs) recorded from both the visual cortex (VC) and superior colliculus (SC) of chronically implanted male Long-Evans rats. There were four treatment conditions administered on separate days: either saline or ethanol (2.0 g/kg, i.p.) was given 10 min before either saline or nicotine (1.0 mg/kg, s.c.). FEPs were recorded at 5, 20, and 40 min following the second injection. In the VC, ethanol significantly decreased the amplitude of most components, but increased P46. Peaks P22 and N53 were unchanged. Nicotine enhanced most component amplitudes, but decreased N29 and P234, while P22 and N139 were unchanged. In the SC, ethanol depressed the amplitude of all components studied. In contrast, nicotine significantly depressed only P27 and N48. Latencies of most components in both structures were increased by ethanol, nicotine, and the combination treatment, although a nicotine-induced enhancement of the effects of ethanol on latencies was not typically observed. Each drug treatment also produced significant hypothermia, with the combination treatment resulting in the greatest hypothermia. Ethanol, either alone or in combination with nicotine, significantly reduced body movements during the FEP recording sessions. In subsequent open-field observations, ethanol, but not nicotine, significantly increased the number of squares crossed, while the combination treatment produced the greatest increase in movement. Nicotine significantly increased rearing behavior, but both ethanol and the combination treatment eliminated rearings. Overall, data suggesting that nicotine can counteract some of the effects of ethanol was demonstrated in varying degrees in the amplitude of VC components N39, P46, N53, N65, and P88, the latency of VC component N53, the amplitude of SC component N59, and the latency of SC components N48 and N54. In contrast, a nicotine-induced enhancement of the effects of ethanol was found for only the latency of VC components N39, P88, and P234, body temperature, and open-field ambulation.
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PMID:Nicotine-ethanol interactions in flash-evoked potentials and behavior of Long-Evans rats. 1643 Sep 48

The objective of this study was to investigate the effect of hypothermia on the blood-brain barrier (BBB) disruption caused by traumatic brain injury (TBI) in chronically ethanol-treated rats. BBB permeability was measured using Evans blue (EB) dye. Arterial blood pressure levels of animals in hypothermic groups decreased significantly. The EB dye extravasation into the brain significantly increased in hypothermia and at 6 and 24 h after TBI. In ethanol-treated rats that were subjected to TBI, hypothermia led to a significant decrease in EB dye content in the brain at 24 h but not at 6 h after TBI when compared with TBI alone.
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PMID:Effect of hypothermia on blood-brain barrier permeability following traumatic brain injury in chronically ethanol-treated rats. 1700 May 27

Side effects of marijuana-based drugs and synthetic analogs of Delta(9)-tetrahydrocannabinol (Delta(9)-THC), including sedation and dysphoria, have limited their therapeutic application. Ajulemic acid (AJA), a side-chain synthetic analog of Delta(8)-THC-11-oic acid, has been reported to have anti-inflammatory properties without producing undesired psychoactive effects. Moreover, it has been suggested that AJA does not interact with cannabinoid receptors to produce its pharmacological effects. The aim of the present study was to conduct a thorough evaluation of the pharmacological effects of AJA then to determine whether actions at cannabinoid receptor (CB)(1) mediated these effects. This study evaluated the psychoactive and analgesic effects of AJA by examining its cannabimimetic properties in ICR mice (i.e., antinociception, catalepsy, hypothermia, and hypomobility), its discriminative stimulus effects in Long Evans rats trained in a two-lever Delta(9)-THC (3.0 mg/kg) versus vehicle drug discrimination procedure, and its antihyperalgesia effects in a rat model of inflammatory pain [complete Freund's adjuvant (CFA)-induced mechanical hyperalgesia]. Lastly, antagonism tests with SR 141716A [N-(piperidin-1-yl)-5-(4-chlorophenyl)-1-(2,4-dichlorophenyl)-4-methyl-1H-pyrazole-3-carboximide hydrochloride], CB(1) receptor antagonist, were conducted. These studies demonstrated that AJA shares a number of CB(1)-mediated pharmacological properties with Delta(9)-THC, including cannabimimetic, discriminative stimulus, and antihyperalgesic effects. Furthermore, a separation between doses that produced antinociception and those that produced the other pharmacological effects in mice was not observed. Moreover, AJA showed nearly equipotency for therapeutic efficacy in the CFA model and for substitution in Delta(9)-THC discrimination. In summary, this study shows that AJA, like Delta(9)-THC, exhibits psychoactive and therapeutic effects at nearly equal doses in preclinical models, suggesting similar limitations in their putative therapeutic profiles.
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PMID:Cannabimimetic properties of ajulemic acid. 1710 26

This experiment examined the effects of the GABA-B agonist baclofen on flash-evoked potentials (FEPs) recorded from both the visual cortex (VC) and superior colliculus (SC) of chronically implanted male Long-Evans rats. FEPs were recorded at 5, 25, 45, and 65 min following intraperitoneal injections of saline, and of 1.25, 2.5, 5.0, and 10.0 mg/kg baclofen on separate days. In the VC, the amplitude of components P(23), P(37), N(55), N(150), and P(242) increased, while the amplitude of components N(31) and P(48) decreased following baclofen administration. P(88) was unchanged. In the SC, components P(28), N(49), N(55), and N(59) were reduced in amplitude, while P(39) was unaffected by baclofen. These effects on amplitudes were dose- and time-dependent. Many peak latencies in the VC and SC were altered by baclofen, although there was no obvious pattern of change, with some decreasing, a few increasing, and others unchanged. Body temperature was recorded in a separate group of animals, with both the 5.0 and 10.0 mg/kg doses of baclofen producing significant hypothermia. The 10.0 mg/kg dose of baclofen resulted in a significant decrease in movement during the recording sessions, but not in subsequent open field observations. The results show the involvement of GABA-B receptors in the production/modulation of the various components of FEPs.
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PMID:Baclofen alters flash-evoked potentials in Long-Evans rats. 1740 91

To clarify the role of brain temperature in permeability of the blood-brain barrier (BBB), rats were injected with methamphetamine (METH 9 mg/kg) at normal (23 degrees C) and warm (29 degrees C) environmental conditions and internal temperatures were monitored both centrally (nucleus accumbens, NAcc) and peripherally (skin and nonlocomotor muscle). Once NAcc temperatures peaked or reached 41.5 degrees C (a level suggesting possible lethality), animals were administered Evans blue dye (protein tracer that does not normally cross the BBB), rapidly anaesthetized, perfused and had their brains removed. All METH-treated animals showed brain and body hyperthermia associated with relative skin hypothermia, suggesting metabolic activation coupled with peripheral vasoconstriction. While METH-induced NAcc temperature elevation varied from 37.60 to 42.46 degrees C (or 1.2-5.1 degrees C above baseline), it was stronger at 29 degrees C (+4.13 degrees C) than 23 degrees C (+2.31 degrees C). Relative to control, METH-treated animals had significantly higher brain levels of water, Na(+), K(+) and Cl(-), suggesting brain edema, and intense immunostaining for albumin, indicating breakdown of the BBB. METH-treated animals also showed strong immunoreactivity for glial fibrillary acidic protein (GFAP), possibly suggesting acute abnormality or damage of astrocytes. METH-induced changes in brain water, albumin and GFAP correlated linearly with NAcc temperature (r = 0.93, 0.98 and 0.98, respectively), suggesting a key role of brain hyperthermia in BBB permeability, development of brain edema and subsequent functional and structural neural abnormalities. Therefore, along with a direct destructive action on neural cells and functions, brain hyperthermia, via breakdown of the BBB, may be crucial for both decompensation of brain functions and cell injury following acute METH intoxication, possibly contributing to neurodegeneration resulting from chronic drug use.
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PMID:Brain edema and breakdown of the blood-brain barrier during methamphetamine intoxication: critical role of brain hyperthermia. 1776 2

The effects of N-methyl carbamate pesticides on the photic after discharge (PhAD) of flash evoked potentials (FEPs) and the relationship between inhibition of brain cholinesterase (ChE) activity and the PhAD were evaluated. FEPs were recorded in Long Evans rats treated with physostigmine (s.c.) 0, 0.05, 0.1, 0.2 or 0.3mg/kg (free base), in an ascorbic acid/saline vehicle, carbaryl (p.o.) 0, 1, 3, 10, 30, 50 or 75 mg/kg, or propoxur (p.o.) 0, 0.3, 3, 10, 20, 30, or 40 mg/kg in a corn oil vehicle. Physostigmine served as positive control based on literature data. Early (e.g. peak N(36)) and late FEP components (peak N(166) and PhAD) are related to the initial retino-geniculate afferent volley and higher cortical processing of visual information, respectively. Compared to controls, the PhAD duration decreased following treatment with 0.1 and 0.3mg/kg physostigmine, 7 5 mg/kg carbaryl or 30 mg/kg propoxur. Lesser changes were noted in FEP amplitudes or peak latencies. Treatment with 0.2 or 0.3 mg/kg physostigmine increased peak N(36) latency. Peak N(166) latency increased only following exposure to 40 mg/kg propoxur. None of the compounds altered peak N(36) or N(166) amplitudes. Hypothermia was observed at doses greater than 0.05 mg/kg physostigmine, at 30 or 50 mg/kg carbaryl, and after treatment with 10, 20 or 40 mg/kg propoxur. Inhibition of brain ChE activity occurred at dosages greater than 0.05 mg/kg physostigmine, 1mg/kg carbaryl, and 0.3 mg/kg propoxur. Linear regression analysis indicated that the decrease in PhAD duration correlated with decrease in brain ChE activity. The results indicate that at 30 min after treatment, inhibition of brain ChE activity did not affect cortical processing of the input from the retino-geniculate volley (evidenced by unaltered peak N(36) amplitude). However, the data suggest that disruption of cortical processing of visual signals related to FEP late components, as indicated by depression of the PhAD, was related to inhibition of brain ChE activity.
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PMID:Depression of the photic after discharge of flash evoked potentials by physostigmine, carbaryl and propoxur, and the relationship to inhibition of brain cholinesterase. 1795 Aug 90

Secondary consequences of intracerebral hemorrhage (ICH) including inflammation, edema, and oxidative damage all contribute to cell death after ICH. Brain hypothermia (BH) has been used as an effective neuroprotective treatment in experimental brain ischemia and traumatic brain injury. In this study, we first attempted to evaluate the effect of delayed mild BH (35 degrees C) on brain edema formation 48 hours after ICH. BH was started 3, 6, 12, and 24 hours after the induction of 100 muL of autologous blood into the basal ganglia (hypothermic [HT]; HT3: n = 4, HT6: n = 6, HT12: n = 11, HT24: n = 6) in rats. To examine the protective mechanism of BH, blood-brain barrier (BBB) permeability to Evans blue, accumulation of polymorphonuclear leukocyte, and oxidative DNA damage in the lesion were compared between normothermic (NT) (37 degrees C) and HT6 rats 48 hours after ICH. Finally, neurologic recovery was assessed using behavioral tests in NT and HT6 rats 48 hours after ICH. Brain water content in the ispilateral basal ganglia was significantly reduced with delayed BT compared with NT (n = 7, 81.8 +/- 0.7% v HT3: 78.9 +/- 0.8%, P < .01; HT6: 78.7 +/- 0.6%, P < .01; HT12: 79.4 +/- 1.1%, P < .01; HT24: 80.3 +/- 0.6%, P < .01). The BBB disruption to Evans blue was significantly reduced with BH (HT6: n = 6) compared with NT (n = 6) rats in the ipsilateral basal ganglia (23.0 +/- 5.2 v 42.3 +/- 4.0 ng/g wet tissue, P < .05). HT6 treatment (n = 6) significantly inhibited the accumulation of polymorphonuclear leukocyte compared with NT treatment (n = 6) (0.43 +/- 0.22 v 1.49 +/- 0.61 DeltaAbs/mg tissue, P < .05). HT6 treatment (n = 3) also significantly reduced oxidative DNA damage determined with 8-hydroxyl-2'-deoxyguanosine compared with NT treatment (n = 3) (92 +/- 18 v 40 +/- 7 pg 8-hydroxyl-2'-deoxyguanosine/mug DNA, P < .05). Furthermore, HT6 treatment (n = 5) significantly improved neurologic recovery assessed with forelimb placing score compared with NT treatment (42.0 +/- 5.8 v 12.0 +/- 3.7, P < .05). In conclusion, mild BH significantly reduces the brain edema formation after ICH, even when the BH is applied 24 hours after hematoma induction in rats. Several neuroprotective mechanisms, including reduced BBB disruption, inflammation and oxidative damage, are suggested in this study.
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PMID:Effect of delayed mild brain hypothermia on edema formation after intracerebral hemorrhage in rats. 1858 38


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