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)

The virulence-enhancing interaction of baker's yeast and different iron preparations (ferric ammonium citrate and iron dextran) was tested in mice challenged with Salmonella typhi and Vibrio cholerae (Inaba and Ogawa) strains. The virulence-enhancing effect of the yeast + iron combination increased significantly as compared to that of either yeast or iron alone. Toxicity assays of the single and combined baker's yeast and iron preparations by the mouse weight gain test have shown that the combinations are considerably more toxic than either single agent, probably owing to the presence of yeast. Examination of the single and combined preparations for influence on body temperature of mice has revealed a general hypothermic action, which was strongest in the combinations, owing again to the yeast. Theoretical considerations on the underlying mechanism of the virulence-enhancing effect have supported the hypothesis that the effect might be associated with the strong hypothermic action produced by baker's yeast and baker's yeast + iron combinations, in as much as hypothermia increases the production of siderophores which ensure the acquisition of iron indispensable for bacterial growth.
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PMID:Synergistic interaction of baker's yeast and iron in the enhancement of bacterial virulence. 639 82

A study was carried out of the effect of constant magnetic field of magnitophore applicator ALM-2 (CMFMA) with magnetic induction B on the surface, in the active centre zone--30 MT and gradient B--5 mT/mm on the intensity of peroxidation of lipids in the human skin during its destruction and under hypothermia. Parameters of ultralow chemoluminescence of skin homogenates initiated by bivalent iron ions were considered as intensity indices of lipid peroxidation. It has been shown that skin incubation for 24 hours under CMFMA effect rules out the strengthening of lipid peroxidation, while it takes place at skin incubation under normal conditions.
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PMID:[Effect of the constant magnetic field on the chemoluminescence of the skin during its destruction]. 663 69

The effect of hypothermia with and without ethanol on the myocardium and skeletal muscle was studied. Changes were observed in both muscle types. The mildest lesions were discoloration of the muscle cells with acid fuchsin and Heidenhain's iron haematoxylin staining, these being more marked in the skeletal muscle. Waving and contraction bands in the muscle were seen in hypothermia. The most severe lesion was a focus with oedema and haemorrhage, a reduced reaction of beta-hydroxybutyrate dehydrogenase and fragmentation of the muscle cells, and this was more frequent in the myocardium. Occasionally discoloration, contraction bands and waving were also seen in the controls killed by a blow on the neck. The changes were more numerous in the guinea pigs given ethanol before cold exposure, and serum creatinine phosphokinase was elevated in the same group. Urinary excretion of adrenaline increased in cold exposure, but noradrenaline did not change significantly. Hypoxia, catecholamines, and sludging of the blood are discussed as possible aetiological factors for the lesions.
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PMID:Changes in the myocardium and skeletal muscle in guinea pigs in cold exposure with and without ethanol. 743 67

Iron-deficient rats become hypothermic and have an excessive catecholamine response when exposed to an ambient temperature of 4 degrees C. This is not due to changes in body insulation, since thickness is unaltered, since differences persist after removal of hair, and since cutaneous vasoconstriction is intact. On the other hand, oxygen consumption of iron-deficient animals at 4 degrees C is reduced, 39 +/- 3 ml . kg-1 . min-1 compared to 63 +/- 2 in control animals. Thyroxine (T4) values at 4 degrees C were 4.34 +/- 0.20 microgram/dl sera as compared to control values of 3.6 +/- 0.32. Triiodothyronine (T3) values of iron-deficient animals in the cold were 48 +/- 6.8 ng/dl as compared to 72 +/- 5.6 in control animals. Treatment of iron-deficient animals with iron was shown to normalize the plasma T3 response at 4 degrees C within 6 days. Thyroidectomized iron-deficient animals injected with T3 did not show hypothermia at 4 degrees C, whereas thyroidectomized iron-deficient animals injected with T4 showed hypothermia, increased catecholamines, and decreased T3 levels as compared to non-iron-deficient animals similarly treated. It is proposed that iron deficiency impairs conversion of T4 to T3 and that this is primarily responsible for the hypothermia observed.
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PMID:Hypothermia in iron deficiency due to altered triiodothyronine metabolism. 743 50

The in vivo generation of .OH free radicals in specific brain regions can be measured by intracerebral microdialysis perfusion of salicylate, avoiding many of the pitfalls inherent in systemic administration of salicylate. Direct infusion of salicylate into the brain can minimize the hepatic hydroxylation of salicylate and its contribution to brain levels of 2,5-DHBA. Levels of 2,5-DHBA detected in the brain dialysate may reflect the .OH adduct plus some enzymatic hydroxylation of salicylate in the brain. After minimizing the contribution of enzyme and/or blood-borne 2,5-DHBA, the present data demonstrate the validity of the use of 2,3-DHBA and apparently 2,5-DHBA as indices of .OH formation in the brain. Therefore, intracranial microdialysis of salicylic acid and measurement of 2,3-DHBA appears to be a useful .OH trapping procedure for monitoring the time course of .OH generation in the extracellular fluid of the brain. These results indicate that nonenzymatic and/or enzymatic oxidation of the dopamine released by MPTP analogues in the extracellular fluid may play a key role in the generation of .OH free radicals in the iron-rich basal ganglia. Moreover, a site-specific generation of cytotoxic .OH free radicals and quinone/semiquinone radicals in the striatum may cause the observed lipid peroxidation, calcium overload, and retrograde degeneration of nigrostriatal neurons. This free-radical-induced nigral injury can be suppressed by antioxidants (i.e., U-78517F, DMSO, and deprenyl) and possibly hypothermia as well. In the future, this in vivo detection of .OH generation may be useful in answering some of the fundamental questions concerning the relevance of oxidants and antioxidants in neurodegenerative disorders during aging. It could also pave the way for the research and development of novel neuroprotective antioxidants and strategies for the early or preventive treatment of neurodegenerative disorders, such as Parkinson's disease (Wu et al., this issue), amyotrophic lateral sclerosis, head trauma, and possibly Alzheimer's cognitive dysfunction as well. In conclusion, this in vivo free-radical trapping procedure provides evidence to support a current working hypothesis that a site-specific formation of cytotoxic .OH free radicals in the basal ganglia may be one of the neurotoxic mechanisms underlying nigrostriatal degeneration and Parkinsonism caused by the dopaminergic neurotoxin MPTP. Addendum added in proof: The controversy concerning possible neurotoxic and/or neuroprotective roles of NO. in cell cultures was discussed and debated at the symposium (Wink et al., this issue; Dawson et al., this issue; Lipton et al., this issue).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:In vivo generation of hydroxyl radicals and MPTP-induced dopaminergic toxicity in the basal ganglia. 783 34

The extent and time course of recovery on return to normothermia were studied in isolated rat hearts, perfused with oxygen-saturated Tyrode's solution at 5-7 degrees C. After a 1-h hypothermia period, complete recovery was obtained on rewarming; after 3 h hypothermia irreversible deterioration of electrical and mechanical activities resulted. The level of lipid peroxidation, evaluated by the thiobarbituric acid (TBA) reaction, showed a dramatic transient increase on return to normothermia, accompanied by a decrease in the levels of reduced glutathione (GSH). Perfusion with iron chelator-containing saline completely prevented both the deterioration and the peak of lipid peroxidation. These results show that lipid peroxidation is responsible for the cold injury. It is proposed that lipid peroxidation is produced as the result of a cold-induced oxidative stress.
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PMID:Hypothermia triggers iron-dependent lipoperoxidative damage in the isolated rat heart. 800 32

After prolonged ischemia, reperfusion of the myocardium with oxygenated blood results in high levels of superoxide anions. Several mechanisms for superoxide anion generation have been proposed, including increased xanthine oxidase activity, neutrophil activation, and arachidonate cascade activation. Superoxide anion accumulation may cause enzyme inactivation and lipid peroxidation in the sarcolemma with resultant intracellular calcium accumulation and excitation-contraction uncoupling. A review of a number of animal studies has shown that free radical scavengers such as superoxide dismutase and catalase can preserve myocardial function and metabolism during transplantation. In addition, other data indicate a role for inhibitors of free radical generation (i.e., allopurinol or oxypurinol), iron chelators (i.e., deferoxamine), or metabolic substrates such as L-glutamate in the inhibition of free radical myocardial injury. In addition, glutathione has been demonstrated to produce faster recovery of ventricular function in hypothermia preserved and reperfused rat hearts, presumably by inhibiting free radical production. Confirmatory data for human cardiac transplantation is not yet available.
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PMID:Oxygen free radicals in cardiac transplantation. 838

This study investigated the vascular effect of ferromagnetic obstruction of cochlear blood vessels in the guinea pig using dual-channel laser Doppler flowmetry. To improve this technique, we tested new types of magnets and iron spheres. In so doing, the cochlear temperature was lowered selectively and general hypothermia was avoided. The success of vascular impairment in the inner ear was found to depend on the experimental conditions used. Given normothermic conditions (38 degrees C body temperature), a clear reduction in cochlear blood flow (CBF) was found in only about 30% of the animals tested when an aluminium-nickel-cobalt alloy magnet and carbonyl iron spheres were used, while this ratio increased to about 80% under general hypothermia (33 degrees C). Using a stronger neodymium-iron-boron magnet and smaller-sized iron spheres, we found the success of vascular obstruction to be approximately 70% under normothermia and 100% with local hypothermia (to 33 degrees C) of the cochlea. Although the extent of vascular impairment revealed a considerable interindividual variation, the present findings demonstrate that ferromagnetic intervention in CBF with dual-channel laser Doppler flowmetry can be used to investigate the effect of quantified cochlear ischemia on inner ear physiology in the guinea pig model and test various therapeutic strategies.
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PMID:Laser Doppler measurements of inner ear blood flow during experimental thrombosis of cochlear blood vessels in the guinea pig. 906 62

The mechanisms of hypothermia-induced cell injury are still unclear. The present study provides experimental evidence for the involvement of reactive oxygen species in hypothermia injury: cultured rat hepatocytes incubated in cold (4 degrees C) Krebs-Henseleit buffer or cell culture medium were injured under normoxic conditions and even more so under hyperoxic conditions, whereas the hepatocytes were protected under hypoxic conditions. During warm (37 degrees C) incubation in cell culture medium, on the other hand, cell injury was minimal under normoxic conditions, only slightly increased under hyperoxic conditions, but substantially increased under hypoxic conditions. The injury occurring during cold normoxic incubation was also largely decreased by the addition of the spin-trap 5,5-dimethyl-1-pyrroline N-oxide, the hydroxyl radical scavenger dimethyl sulfoxide, the flavonoid silibinin, or the transition metal chelator 2,2'-dipyridyl to the medium, or by preincubating the cells with the iron chelator deferoxamine or the lipophilic antioxidant alpha-tocopherol before the hypothermic incubation. In addition, marked lipid peroxidation was observed during cold incubations without inhibitors, but not during warm incubations. Similar results were obtained with cultured rat liver endothelial cells. These results suggest that in hepatocytes and in liver endothelial cells, cold-induced release of reactive oxygen species, most likely of hydroxyl radicals, is the main injurious factor under hypothermic conditions.
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PMID:Cold-induced release of reactive oxygen species as a decisive mediator of hypothermia injury to cultured liver cells. 962 89

A 20-year-old Jehovah's witness patient experienced a femur fracture, with a section of the femoral artery and vein. On admission, haemoglobin concentration was 5.6 g.dL-1 and haematocrit 17%. Because of aponevrotomy, blood losses persisted. As the patient refused blood transfusion, recombinant human erythropoietin and parenteral iron were administered, associated with mild hypothermia, sedation and mechanical ventilation. After 21 days, the haemoglobin concentration increased to 10.9 g.dL-1 and haematocrit to 33% Recombinant human erythropoietin and parenteral iron may provide an alternative safe and effective therapy in life-threatening anaemia when blood transfusions are not accepted by the patient.
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PMID:[Treatment of post-traumatic acute anemia by recombinant human erythropoietin in Jehovah's Witnesses]. 963 94


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