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

Fetal rat neocortex grafted into lesion cavities made in the newborn rat neocortex can exchange multiple axonal connections with the host brain. Most previous studies demonstrating efferent transplant-to-host brain connections have used fluorescent retrograde tracers injected into the host brain (Castro et al. 1985, 1987; Floeter and Jones 1984; O'Leary and Stanfield 1989). Other studies have used anterograde axonal tracing with either tritium-labelled amino acids impregnating the transplant and its efferents (Floeter and Jones 1985) or horseradish peroxidase injected into the transplants (Chang et al. 1984, 1986). In the present study we used the anterograde axonal tracer Phaseolus vulgaris-leucoagglutinin (PHA-L) to examine in detail the course and termination of the efferent neocortical graft fibers. Twenty-six newborn rats had the right frontal cortex forepaw area removed by vacuum aspiration, while anesthetized by hypothermia. A piece of fetal frontal cortex 14-16 embryonic days old (E14-16) was immediately thereafter placed in the lesion, and the recipient rats allowed to survive for 5-7 months. At this time the rats were reoperated under sodium pentobarbital (Nembutal) anesthesia and the transplants iontophoretically injected with PHA-L. Two weeks later the animals were again anesthetized, perfused, and processed for PHA-L immunocytochemistry and routine histology. Analysis of acetylcholinesterase- (AChE) and Nissl-stained sections showed graft survival in 19 of the 26 animals used in this study. When these 19 brains were processed for PHA-L immunocytochemistry, 5 of them were found with certainty to have the PHA-L injection confined to the transplant. Based on these cases PHA-L-reactive fibers arising from labelled transplant neurons were traced into the ipsilateral host neocortex adjacent to the transplant and found to project through the subcortical white matter to the ipsilateral parietal neocortical area 1, and claustrum. Callosal fibers were traced to the contralateral frontal neocortical forelimb and parietal areas. Transplant fibers were also observed to descend through the caudate putamen in the dispersed fiber bundles of the internal capsule to distribute as terminal branches and varicose fibers within the mesencephalic periaqueductal gray, red nucleus, deep mesencephalic nucleus, and intermediate gray of the superior colliculus, as well as in the pontine gray. Similar fibers and terminations were present in the caudate putamen, the reticular, ventrobasal, centrolateral, posterior, and parafascicular thalamic nuclei.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Projections from fetal neocortical transplants placed in the frontal neocortex of newborn rats. A Phaseolus vulgaris-leucoagglutinin tracing study. 149 66

It was demonstrated in experiments on albino rats subjected to hypoxic hypoxia or hypothermia that highly-resistant animals, accounting for 30% of the population, survive much longer than animals with low and moderate resistance because extreme factors activate in them the system of peroxidase enzymes destroying the peroxides with the liberation of oxygen, which is then included in energy metabolism.
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PMID:[Various biochemical survival mechanisms in highly-resistant animals]. 188 3

Brain edema is a fatal complication of fulminant hepatic failure and its pathogenesis remains unclear. To determine its presence in a model of ischemic hepatic failure, rats were subjected to a portacaval anastomosis followed by hepatic artery ligation. Brain water was measured using the sensitive gravimetric method. Preliminary studies revealed marked hypothermia in devascularized animals kept at room temperature (26.9 degrees +/- 2.8 degrees C). An additional group of devascularized rats was kept in an incubator. As expected for hypothermia, such animals had a lower arterial pressure and heart rate; the duration of encephalopathy was markedly prolonged. Water content of the cortical gray matter was only increased in normothermic devascularized rats: 80.14% +/- 0.31%, normal; 80.06% +/- 0.22%, portacaval shunt only; 80.42% +/- 0.26%, devascularized at room temperature; 81.29% +/- 0.38%, devascularized at controlled temperature (p less than 0.001). Such differences could not be detected using the dry-weight technique in whole cerebral hemispheres. Astrocyte changes in the cortical gray matter were noted in both edematous and nonedematous devascularized groups, coupled with the presence of vesicles containing horseradish peroxidase in the endothelial capillary cell. This suggests that in this model, brain edema may be due to both a cytotoxic mechanism and changes in the permeability of the blood-brain barrier. Future studies with this widely used model will require strict control of temperature to allow interpretation of experimental results. A therapeutic role for hypothermia in the management of brain edema deserves further attention.
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PMID:Effect of body temperature on brain edema and encephalopathy in the rat after hepatic devascularization. 291 49

This study assesses the ability of the free-radical scavenger peroxidase to enhance cardioplegic protection when given during or before myocardial ischemia. Forty-four isolated isovolumetric buffer-perfused rat hearts were studied. In a first series of experiments that consisted of three groups, hearts were subjected to 90 min of normothermic global ischemia followed by 45 min of reperfusion. One group received a crystalloid cardioplegic solution given as a single dose at the onset of arrest. A second group received cardioplegic solution supplemented with superoxide dismutase (200,000 U/liter), and a third group received cardioplegic solution supplemented with peroxidase (6000 U/liter). Based on comparisons of postreperfusion coronary flow, left ventricular developed pressure, maximum dP/dt, and diastolic pressure, we found that the best protection was provided by peroxidase-enriched cardioplegia. A second series of experiments was then undertaken to assess the effects of the latter enzyme given as a pretreatment. Hearts were subjected to 3 hr of global ischemia, during which myocardial protection was provided by hypothermia (15 degrees C) along with multidose cardioplegia. The treatment group was given peroxidase (10,000 U/liter) added to the perfusate fluid for 15 min before the onset of cardioplegic arrest without further enzyme supplementation during ischemia or reperfusion. Hearts perfused with standard buffer for an equal period of time served as controls. While the two groups demonstrated the same degree of postischemic increase in myocardial stiffness, peroxidase-pretreated hearts had a significantly better recovery of contractile indexes at 30 and 45 min of reflow.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Enhancement of cardioplegic protection with the free-radical scavenger peroxidase. 302 57

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

When using methods of perfusion to preserve the rat pancreas, we found that perfusion into the celiac axis was the most effective. The viability of the cadaver pancreas from decapitated rats preserved by perfusion into the celiac axis for 6 hours under various conditions of hypothermia, hyperbaria and oxygenation was investigated. The condition of perfusion affected the ratio of degenerative islets/normal islets in the pancreas. The ratio, under conditions of hypothermia and oxygenation was the lowest, while that under conditions of hyperbaria was the highest. Insulin-releasing activity of islets from 6-hour-perfusion-pancreas, under conditions of hypothermia and oxygenation was 86.5 per cent or more of that of the control. Stainings with fluorescent antibody and peroxidase antiperoxidase, revealed a large number of A and B cells in the islets of the pancreas, in cases of up to 6 hours of perfusion.
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PMID:Perfusion preservation of cadaver rat pancreas: I. Morphological observation and biological function of the islets. 637 97

Studies on free radical generation during cardiopulmonary bypass have focused mainly on the heart and the lungs. However, low pumping pressure, nonpulsatile perfusion, and hypothermia affect the entire circulation, resulting in decreased splanchnic blood flow, increased intestinal permeability, and endotoxemia. To evaluate regional phenomena, we studied 16 children undergoing cardiopulmonary bypass. Free radical production, granulocyte activation, and hypoxanthine metabolism were assessed separately in the circulations drained by the inferior and superior venae cavae, as well as in the oxygenator. Three minutes after the onset of cardiopulmonary bypass, significant gradients between the inferior vena cava and the arterial line of the oxygenator existed in malondialdehyde (+0.60 +/- 0.12 mumol/L, lactoferrin (+18.21 +/- 7.65 micrograms/L), myeloperoxidase (+53.75 +/- 16.50 micrograms/L), hypoxanthine (-0.62 +/- 0.15 mumol/L), and urate (+8.87 +/- 4.03 mumol/L). These gradients decreased in parallel with decreasing body temperature. Except for a transient gradient in malondialdehyde at 3 minutes after the onset of cardiopulmonary bypass (+0.23 +/- 0.08 mumol/L), no changes were detected between the superior vena cava and the arterial line. In the oxygenator, granulocyte activation was observed only after aortic declamping. We conclude that during cardiopulmonary bypass, significant free radical generation, granulocyte activation, hypoxanthine elimination, and urate production take place in the region drained by the inferior vena cava. In the oxygenator, granulocyte activation occurs only after aortic declamping.
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PMID:Regional generation of free oxygen radicals during cardiopulmonary bypass in children. 756 45

The effects of the orally active selective 5-lipoxygenase inhibitor Zileuton (A-64077, (N-1(1-benzo{b}thien-2-ylethyl)-N-hydroxyurea) were studied in a canine model of hypothermic intestinal organ ischemia-reperfusion (I/R) injury (transplant preservation injury). Forty-eighty hours of hypothermic intestinal ischemia utilizing Collin's flush, followed by 1 hr of reperfusion (transplantation) in A-64077-treated animals, resulted in a 3-fold increase in intestinal oxygen uptake and blood flow relative to the untreated controls. The postreperfusion movement of fluid from the microcirculation into the intestinal lumen significantly increased in the control animals at reperfusion, and A-64077 treatment dramatically exacerbated this phenomenon. Mucosal neutrophil infiltration, or the processes leading to infiltration, significantly increased after 48 hr of cold ischemia and 1 hr of normothermic reperfusion in the untreated animals. A similar response was observed in A-64077-treated dogs, but the absolute levels of MPO were 10-fold less relative to untreated animals, including intestinal tissue obtained before I/R. Hypothermic I/R injury in this model resulted in severe histologic injury. A-64077-treated dogs, however, demonstrated significant improvements in histologic injury. Mucosal synthesis of LTB4 rose significantly after cold I/R injury and was abrogated by A-64077 treatment. The synthesis of PGE2 significantly increased after cold I/R in both untreated and A-64077-treated dogs. The increase in PGE2 production after hypothermic I/R in the A-64077-treated animals was higher relative to the untreated control animals. In conclusion, this study indicates that arachidonic acid metabolism via the 5-lipoxygenase pathway plays a significant role in the pathophysiology of hypothermic intestinal I/R injury. Furthermore, the 5-lipoxygenase inhibitor A-64077 possesses favorable pharmacologic and biologic responses in this intestinal injury and should be considered in the clinical amelioration of intestinal transplantation preservation injury.
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PMID:Effects of the 5-lipoxygenase inhibitor A-64077 on intestinal hypothermic organ preservation injury. 915 5

In three groups of rabbits, the rectus femoris muscle was subjected to 4 hours of total ischaemia. In Group 1 (normothermia, n = 5) the core temperature was maintained within the range 36-38 degrees C for the duration of ischaemia. In Group 2 (total hypothermia, n = 5) the core temperature was allowed to fall to 31.5-33.5 degrees C. In Group 3 (muscle only hypothermia, n = 5) core temperature was maintained as in Group 1 but the muscle temperature was allowed to fall to 29.5-31.5 degrees C. After 24 hours of reperfusion the muscles were harvested and measurements made of muscle viability, oedema and myeloperoxidase content. The mean (s.e.m.) muscle viability of Group 1, 19.5 (3.8)%, was significantly less than that of both Group 2, 86.0 (2.0)%, and Group 3, 87 (4.1)%, (P < 0.001). Muscle oedema and myeloperoxidase levels were elevated in all experimental groups, but differences were not significant. These findings indicate that ischaemia-reperfusion injury in skeletal muscle in this model is highly temperature-sensitive, small reductions in muscle temperature during ischaemia providing significant protection against ischaemia-reperfusion injury.
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PMID:Mild hypothermia protects against ischaemia-reperfusion injury in rabbit skeletal muscle. 924 68

Hypothermia protects the brain and other vital organs during periods of ischaemia. We differentiate between mild (36-34 degrees C), moderate (33-29 degrees C), deep (28-17 degrees C) and profund (16-4 degrees C) hypothermia. During hypothermia, cerebral metabolic rate and cerebral blood flow decrease dependent on temperature. The relation between temperature and cerebral metabolism is expressed by the temperature coeffizient Q10, which is the ratio between two metabolic rates separated by 10 degrees C. The following factors contribute to decreases in cerebral blood flow seen during hypothermia: cerebral metabolic depression, decreases in cardiac output, and decreases in arterial blood pressure with pH-stat management, increases in hematocrit and in blood viscosity. Mild or moderate hypothermia reduces histopathological damage and neurological deficits if started before and during cerebral ischaemia. Hypothermia may also improve neurologic outcome if initiated following focal cerebral ischaemia, but is less effective after global ischaemic insults. Mild hypothermia appears to be safer and more effective compared to moderate hypothermia. In most instances, deep hypothermia renders neurologic outcome worse, which is most likely related to the generation of toxic metabolites and inadequate myocardial function during rewarming. The neuroprotective effects of hypothermia are related to several mechanisms along the ischaemic cascade: prevention of postischaemic hypoperfusion, reduction of functional and basal metabolism, decreased accumulation of lactic acid and oedema formation, inhibition of excitatory neurotransmitter release, prevention of Ca(++)- and Na(+)-influx, inhibition of lipid peroxidase activity, and free radical formation, stimulation of regenerative immediate early genes. The side effects of hypothermia include myocardial ischaemia, cardiac arrhythmias, decreased left ventricular contractility, coagulation abnormalities, and suppression of metabolic and immunological processes.
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PMID:[Mild and moderate hypothermia as a new therapy concept in treatment of cerebral ischemia and craniocerebral trauma. Pathophysiologic principles]. 928 20


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