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Query: UMLS:C0020672 (hypothermia)
 17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ability of neuroleptics to induce dopamine D2 receptor supersensitivity has been linked to the onset of tardive dyskinesia, the major side-effect of these drugs. Brain iron metabolism has been shown to be involved in the regulation of dopamine D2 receptors. We now examined the effect of chronic treatment with FeCl2 on chlorpromazine-induced D2 receptor supersensitivity. The results show that FeCl2 (5 mg/kg per day for 21 days) given to rats treated with chlorpromazine (10 mg/kg per day, for 21 days) prevented the onset of supersensitive biochemical and behavioral (apomorphine) expressions of DA D2 receptor. Inclusion of iron did not affect the chlorpromazine-induced sedation or hypothermia. Moreover, the combined chronic iron-chlorpromazine treatment produced the same net effects as chronic chlorpromazine on striatal amounts of dopamine, DOPAC (dihydroxyphenylacetic acid) and HVA (homovanillic acid). Chlorpromazine medication caused a decrease in liver non-haem iron levels (40%) but not in brain iron. The effect of the neuroleptic drug on iron stores and the involvement of iron in the neuroleptic-induced dopamine supersensitivity suggest that mobilization of iron from the periphery into the brain may play an important role in the mechanism of action of the neuroleptics.
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PMID:Prevention of neuroleptic-induced dopamine D2 receptor supersensitivity by chronic iron salt treatment. 168 31

Neuroprotective agents may exert their effect by reducing cerebral oxygen demand (CMRO2), increasing cerebral oxygen delivery, or by altering ongoing pathological processes. Barbiturates provide neuroprotection by reducing the CMRO2 necessary for synaptic transmission while leaving the component necessary for cellular metabolism intact. Isoflurane may exert a neuroprotective effect by a similar mechanism but its efficacy is likely less than that of barbiturates due to adverse effects on cerebral blood flow. Lidocaine reduces CMRO2 by affecting both cellular metabolic processes and synaptic transmission and thus resembles hypothermia in its mechanism of action. Benzodiazepines reduce CMRO2 by reducing synaptic transmission and their use as neuroprotectants produces less haemodynamic compromise than barbiturates. The mechanism of protection by calcium entry blocking agents appears to be due to improved blood flow as opposed to altering abnormal Ca++ fluxes. In contrast, agents such as ketamine and MK-801 may prevent abnormal Ca++ fluxes through their competitive interaction with N-methyl-D-aspartate receptors. Phenytoin prevents K(+)-mediated ischaemic events from progressing. Agents worthy of further investigation include corticosteroids, free radical scavengers, prostaglandin inhibitors and iron chelators.
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PMID:Brain protection: physiological and pharmacological considerations. Part II: The pharmacology of brain protection. 222 93

The ability of intraoperative hypothermia to modify the metabolic response to cardiopulmonary bypass (CPB) was assessed by serial alterations in iron, zinc and copper, and in their molar binding ratios to their respective transport proteins, in 20 male patients under-going elective coronary artery surgery and randomised to an operative blood temperature of 28 degrees C or 20 degrees C. Decreases in serum iron and zinc concentrations, typical of the acute phase response, were preceded by early rises. Significant alterations in the metal: protein molar binding ratios preceded significant changes in the serum concentrations of the metals and occurred earliest in the zinc: albumin binding ratio, which was apparent by the time of skin incision. An intraoperative temperature of 20 degrees C modified iron and zinc concentrations and their protein binding ratios during surgery but not in the post-operative period. These early changes in trace metals and their protein binding ratios are a simple and inexpensive method of quantitating the response to surgical injury and may be useful in assessing new interventions in cardiopulmonary bypass. An awareness of the trace element response to surgical injury is essential to avoid misdiagnoses of iron deficiency anaemia or zinc deficiency.
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PMID:The effects of intraoperative hypothermia and cardiopulmonary bypass on trace metals and their protein binding ratios. 226 37

Iron catalysis is involved in the generation of the highly cytotoxic hydroxyl radical and in the chain reactions of subsequent lipid peroxidation that lead to irreversible membrane damage. Assuming that ischemically stored heart transplants may incur free radical injury at the time of reoxygenation, we assessed the effects of the iron chelator deferoxamine in 70 isolated isovolumic buffer-perfused rat hearts subjected to the following protocol: cardioplegic arrest; cold (2 degrees C) storage for 5 hours; global ischemia at 15 degrees C for 1 hour, intended to simulate the implantation procedure; and normothermic reperfusion for 1 additional hour. During poststorage ischemic arrest, the following techniques of myocardial protection were evaluated: hypothermia alone; high-pressure (60 cm H2O) cardioplegia given at 0, 30, and 55 minutes of arrest; low-pressure (30 cm H2O) cardioplegia given at 0 and 55 minutes of arrest; and low-pressure (30 cm H2O) cardioplegia only given at 55 minutes of arrest. Treated hearts had deferoxamine (6 mumol) added to the cardioplegic solution used throughout the experimental time course. Further, in the treated group subjected to the protocol of single cardioplegic delivery at end ischemia, deferoxamine was given both in the cardioplegic reperfusate and in the Krebs buffer over the 15 initial minutes of reflow. Based on comparisons of postreperfusion ventricular pressure development, maximal rate of rise of ventricular pressure, left ventricular compliance, and coronary flow, the best myocardial protection was afforded by deferoxamine given as an additive to single-dose cardioplegic solution at the end of arrest and to the reperfusate during the initial phase of reoxygenation. As the drug has no inotropic effect, its protective action is most likely related to a decrease in catalytic iron available for free radical production and lipid peroxidation. These results support the hypothesis that oxidative damage may contribute to donor heart failure and demonstrate that this form of damage can be efficiently acted upon by iron chelation. The clinical relevance of these data stems from the fact that deferoxamine is available for human use and might become an effective means of improving donor heart preservation in the setting of clinical heart transplantation.
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PMID:A promising approach for improving the recovery of heart transplants. Prevention of free radical injury through iron chelation by deferoxamine. 236 51

Survival of V-79 Chinese hamster cells was assessed by colony growth assay after hypothermic exposure in the presence of iron chelators. At 5 degrees C, maximum protection from hypothermic damage was achieved with a 50 microM concentration of the intracellular ferric iron chelator Desferal. A 3-hr prehypothermic incubation with 50 microM Desferal followed by replacement with chelator-free medium at 5 degrees C also provided some protection. This was not observed when the extracellular chelator DETA-PAC (50 microM) was used prior to cold storage. Treating 5 degrees C-stored cells with Desferal just prior to rewarming was ineffective, but treating cells with Desferal during hypothermia exposure after a significant period of unprotected cold exposure ultimately increased the surviving fraction. Submaximal protection during hypothermia was achieved to various degrees with extracellular chelators at 5 degrees C, including 50 microM DETAPAC and 110 microM EDTA. EGTA (110 microM) had little effect. The sensitization of cells at 5 degrees C with 200 microM FeCl3 could be reduced or eliminated with Desferal in accordance with a 1:1 binding ratio. At 10 degrees C, 50 microM Desferal, 50 microM DETAPAC, and 110 microM EDTA were as or less effective in protecting cells than at 5 degrees C. An Arrhenius plot of cell inactivation rates shows a break at 7-8 degrees C, corresponding to maximum survival for control cells and cells in 50 microM Desferal; however, the amount of protection offered by the chelator increases with decreasing temperature below about 19 degrees C, and sensitization increases above that point. It has not previously been shown that iron chelators protect against cellular hypothermia damage which is uncomplicated by previous or simultaneous ischemia. This may be relevant to the low-temperature storage of transplant organs, in which iron of intracellular origin and in the perfusate may be active and damaging.
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PMID:Factors influencing survival of mammalian cells exposed to hypothermia. IV. Effects of iron chelation. 239 29

Experiments on renal cortical brush border membrane vesicles have been undertaken in order to assess the involvement of iron in oxidative stress at physiological temperatures and under conditions of hypothermia. A decrease in temperature stimulated iron-induced lipid peroxidation. The results are discussed in relation to the role of the oxidation state of the iron and iron(II)/iron(III) ratios in the initiation of peroxidative events.
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PMID:The effects of iron-mediated oxidative stress in isolated renal cortical brush border membrane vesicles at normothermic and hypothermic temperatures. 270 28

Hydroxyl is one of the most cytotoxic of all oxygen-derived free radicals produced during the myocardial ischaemia-reperfusion sequence. The purpose of the present study was to determine the effects of various interventions aimed at diminishing the production of hydroxyl radicals by reducing either one of their precursors (hydrogen peroxide) or the metal (ferric iron) which catalyzes the reaction generating these radicals. Sixty isolated and perfused rat hearts with isovolaemic contraction were studied. Except for non-ischaemic controls, these hearts were subjected to a 3-hour cardioplegic arrest in hypothermia (15-18 degrees C) followed by a 45-min reperfusion. The following interventions were performed: pretreatment with peroxidase, a hydrogen peroxide scavenger; pretreatment with peroxidase combined with deferoxamine, an ironchelating agent; pretreatment with peroxidase followed by addition of deferoxamine to the cardioplegic solution; addition of deferoxamine to the cardioplegic solution without pretreatment with the enzyme. Judging from the post-ischaemic values of developed pressure (maximum systolic pressure--diastolic pressure), left ventricular dP/dt and diastolic pressure and coronary flow rate, it appeared that the best myocardial protection was provided by deferoxamine-enriched cardioplegia. This study confirms that hydroxyl radicals most probably play a role in the genesis of the myocardial lesions associated with global ischaemia followed by reperfusion. Moreover, our results highlight the potential value of deferoxamine added to cardioplegic protection in heart surgery performed under extracorporeal circulation.
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PMID:[A new concept of cardioplegic protection in cardiac surgery: iron chelation]. 314 54

An adult mouse (18-20 g) model was developed for studying the pathogenesis of Campylobacter isolates. Iron-loaded BALB/c mice given 10(8)-10(9) Campylobacter colony forming units by intraperitoneal injection developed a severe mucoid diarrhea within 4 h. Severe diarrhea, consisting of unformed stools containing blood, mucus, and fecal leukocytes, persisted for 24 h. Diarrheal symptoms in surviving mice resolved gradually; no diarrhea was observed 5 days after inoculation. Mice not pretreated with iron developed no diarrheal symptoms, and no severe diarrhea was produced in mice inoculated orally. A transient (less than 24 h) bacteremia occurred in mice inoculated either orally or intraperitoneally. Liver, spleen, and kidney were positive for Campylobacter for 48 h; intestinal contents were positive for 5-7 days. Mice given greater than or equal to 10(10) colony forming units showed symptoms of endotoxemia (ruffled fur, inactivity, shaking, tearing, and hypothermia) and died without diarrheal symptoms. Mice given nonpathogenic Escherichia coli strain HB101, heat-killed C. jejuni cells (greater than 10(10)), C. jejuni lipopolysaccharide extract, or purified lipopolysaccharide from either Vibrio cholerae 569B or Salmonella typhimurium showed no diarrheal symptoms.
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PMID:Campylobacter diarrhea in an adult mouse model. 350 19

Rats made nutritionally iron-deficient (ID) have significantly diminished haemoglobin, serum iron and hypothermic response to d-amphetamine (15 mg/kg). The reduction of d-amphetamine induced hypothermia is comparatively greater in the dark than in the light period. Neither TRH (1 mg/kg) nor CG 3703, a peptidase resistant TRH analogue (1 mg/kg), induced hypothermia in control of ID animals. However, in combination with d-amphetamine, TRH and CG 3703 did not alter the hypothermic effect observed initially with d-amphetamine. In contrast to control animals, ID rats treated with saline or d-amphetamine (15 mg/kg) exhibited a greater degree of motor activity in the light as compared to the dark period. However, the overall activity (light plus dark) was unchanged in the ID group. The motor activity in response to TRH or CG 3703 was not changed as a result of iron-deficiency. These differential responses may be due to a more pronounced action of d-amphetamine on dopaminergic system, which is known to be changed in iron-deficiency, and of TRH and CG 3703 on the noradrenergic neurones.
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PMID:Iron deficiency induces reversal of dopamine dependent circadian cycles: differential response to d-amphetamine and TRH. 393 24

It has been demonstrated that nutritional iron-deficiency induced in rats results in the reduction of DA D2 receptor binding sites, leading to down-regulation of dopaminergic activity similar to that observed in neuroleptic-treated animals. The following observations are common to both conditions: (a) Decreased behavioural response to pre- and post-synaptically DA and serotonin acting drugs, amphetamine, apomorphine and 5-methoxy-N,N-dimethyltryptamine. (b) Inhibition of amphetamine or apomorphine induced hypothermia in rats kept at an ambient temperature of 4 degrees C. (c) Increased sleeping time to phenobarbitone which cannot be attributed to the rate of drug metabolism (5,38). (d) Upregulation of prolactin binding sites in the liver as a result of increased serum prolactin. Additionally, nutritional iron-deficiency lowers brain iron and interferes with protein synthesis in this organ, which could explain the reduction of DA D2 receptor number and function. Given the fact that the highest brain concentrations of iron are found in dopaminergic structures (see 42 for review), and the essential role of intact dopaminergic systems to attentional and learning processes (15b,30), the resultant behavioural changes due to the reduction of dopaminergic activity in iron-deficient animals may go some way to explain the adverse effects on cognition, behavioural patterns, learning and attention, event-related potentials (ERPs) and EEG changes reported in iron-deficient children (19-28,30).
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PMID:Brain iron and dopamine receptor function. 613 53


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