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)

Three methods of preservation of the in situ temporarily ischaemic kidney were compared in dogs. The study was carried out in 24 dogs, divided in 4 groups. Each group included 4 dogs in which the ischaemic time was 60 minutes, and 3 dogs in which the ischaemic time was 90 minutes. The experimental animals of the first group served as controls (warm ischaemia); in the second group renal hypothermia was accomplished by an arterial infusion of Collins' solution at 4 degrees C; in the third group preservation of the kidney was attempted only by an arterial infusion of inosine (90-120 mg/kg); finally in the fourth group, the infusion of Collins' solution was combined with infusion of inosine (800-1 000 mg/l Collins' solution). The assessment of the damage of the ischaemic kidney was made by histo-enzymological analysis of renal tissue specimens received from each animal just before initiation of the ischaemia and on the 21st post-operative days. The enzymes examined in this analysis were: Alkaline Phosphatase, ATP-ase, Glutamate Dehydrogenase, Glucose-6-phosphatase, Hydroxybutyrate Dehydrogenase and gamma-GT. These studies have shown that the ischaemic kidney is best preserved by the arterial infusion of Collins' solution with simultaneous infusion of inosine.
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PMID:[Changes in tissue enzymes during "in situ" renal ischemia with or without protection of the kidneys]. 613 Oct 97

Short-lasting hypothermia during thiobutabarbital general anaesthesia causes no decrease of the absolute ATP level in the blood and liver of rats. The adenylate energy charge in the tissues is relatively high - 0.86 in the liver and 0.85 in the muscles, which might be an evidence of a significant "energy sparing" during moderate hypothermia (26 +/- 1 degree C). Somatostatin in a dose of 20 micrograms/kg of body weight given to the rats during hypothermia decreased the ATP level, the ATP/ADP ratio and the adenylate energy charge in the studied tissues, especially in the liver, evidencing increased intensity of catabolic processes caused by the inhibitory action of somatostatin on the release of insulin and glucagon, among other hormones, and on the change of the insulin/glucagon ratio.
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PMID:Somatostatin effect on the level of adenyl nucleotides in the blood and tissues of rats during short-lasting hypothermia. 614 95

Hypothermic perfusion effectively preserves the viability of kidneys for 3 days. Long-term preservation (5 days or greater) has not been consistently obtained. In this study, the differences between kidneys perfused for 3 and 5 days were compared by determining the "integrated-metabolic" capabilities of tissue slices incubated in vitro at 30 degrees C. The "integrated-metabolic" parameters determined include (1) respiration rates, (2) cell volume regulation [total tissue water (TTW) and saccharide permeable space], (3) rate of reaccumulation of K+ and pumping of Na+, (4) maintenance of ATP concentrations, and (5) mitochondrial functions. Conditions that result in high and low concentrations of ATP following perfusion of kidneys for 5 days were also compared for effects on tissue slice metabolism. The results indicate that energy metabolism in tissue slices is well preserved under all conditions and times of perfusion of kidneys. This includes average respiration rates (315 +/- 50, 275 +/- 35, and 255 +/- 45 mumol O2/hr/g dry wt at 0, 3, and 5 days, respectively, mitochondrial function [respiratory control ratio (RCR) = 4.6, 4.0, and 4.1 for 0, 3, and 5 days, respectively], and steady-state concentration of ATP in slices after incubation (4.0 +/- 1.45, 3.9 +/- 1.28, and 3.3 +/- 0.81 mumol/g/dry wt, for 0, 3, and 5 days, respectively). The primary differences between 3- and 5-day perfused kidneys were the capability of the slices to regulate cell volume and reaccumulate K+. Slices from kidneys perfused for 3 days maintained the TTW at 3.8 kg/kg dry wt, a value similar to that of control tissue slices. However, slices from 5-day perfused kidneys remained swollen (TTW = 4.6 kg/kg dry wt). Also, slices from the 5-day perfused kidney pumped K+ at less than one-half the rate found in slices from control or 3-day preserved kidneys. No significant differences were apparent in the permeability properties of the tissue slices from kidneys perfused for 3 and 5 days to radiolabeled saccharides. The defects in membrane-linked transport functions, resulting from long-term kidney perfusion, were reduced in kidneys containing a high concentration of ATP. The results suggest that one factor which may limit successful preservation of kidneys is the increased membrane permeability (to electrolytes) which is partially prevented by maintaining elevated concentrations of tissue ATP during perfusion.
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PMID:Comparison of the effect of 3- and 5-day hypothermic perfusion of dog kidneys on metabolism of tissue slices. 661 May 35

To investigate the relationship between neuropathologic damage and cerebral metabolic alterations during hypothermia in the neonatal animal, 7 day old Sprague-Dawley rats were subjected to unilateral common carotid artery ligation and hypoxia at 37 degrees C, 29 degrees C, and 21 degrees C. At 37 degrees C, animals had extensive infarction of tectum and ipsilateral cerebral hemisphere, and marked depletion of brain ATP. At 29 degrees C, there was no significant change in brain ATP; neuropathologic damage was limited to a few areas of necrosis in the deeper layers of cerebral cortex. No histologic injury was seen in the 21 degrees C group of rats. Profound hypothermia may prevent cerebral edema and visible neuropathologic damage associated with hypoxic-ischemic injury by decreasing cerebral metabolic demands. Moderate hypothermia confers a partial, but incomplete degree of protection; whereas during normothermia, the full extent of hypoxicischemic injury is manifest.
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PMID:The effect of graded hypothermia on hypoxic-ischemic brain damage: a neuropathologic study in the neonatal rat. 665 97

Calcium-free rat hearts develop separations of fascia adherens junctions of intercalated discs. Such hearts are susceptible to membrane injury and enzyme release during anoxic contracture. Anoxic enzyme release was exacerbated by distention of heart ventricles with a balloon. Dinitrophenol (DNP) and caffeine were used to induce contracture in calcium-free hearts. Both DNP and caffeine caused a massive enzyme release from calcium-free but not from control hearts. Caffeine-induced enzyme release occurred despite Amytal inhibition of mitochondrial respiration. These results demonstrate that in calcium-free hearts with contracture or ventricular distention, enzyme release occurred without calcium repletion, from hearts depleted of ATP and in the absence of mitochondrial function. A relationship between contracture-mediated enzyme release and the calcium paradox was suggested by studies of the effects of hypothermia on enzyme release. Hypothermia to 22 degrees C protects hearts against both the calcium paradox and anoxic, DNP and caffeine injury. The parallel temperature dependence of protection between contracture-mediated enzyme release and the calcium paradox is evidence that contracture may also be a mediator of sarcolemmal membrane injury and enzyme release in the calcium paradox.
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PMID:Mechanism of enzyme release in the calcium paradox. 666 35

Previous studies from this laboratory utilized mass spectrometry to measure myocardial oxygen (PO2) and carbon dioxide (PCO2) tensions in isolated feline hearts subjected to periods of global ischemia and reperfusion. Myocardial carbon dioxide tension was found to increase during ischemia, and its rate of increase was found to correlate inversely with subsequent recovery of myocardial function following reflow. The present study utilized phosphorus-31 nuclear magnetic resonance (NMR) to assess whether the severity of intracellular acidosis or the depletion of high energy phosphate stores would show a similar correlation with recovery of function. Hyperkalemic cardioplegia employed as a myocardial preservation technqiue in combination with hypothermia was compared with hypothermia alone as the control intervention. The experimental results demonstrated that intracellular pH fell to 6.09 +/- 0.13 with hypothermia alone and to 6.31 +/- 0.09 with cardioplegia plus hypothermia. Furthermore, myocardial ATP content fell to 22% +/- 2% of control with hypothermia alone, while falling to 36% +/- 4% of control with the combined therapy. Recovery of myocardial performance was found to correlate inversely with the severity of intracellular acidosis and depletion of ATP during ischemia. In contrast, no relationship was observed between preservation of phosphoryl-creatinine levels either during ischemia or after reflow and recovery of ventricular function. These results suggest that, similar to mass spectrometry, which allows monitoring of myocardial PCO2, 31P NMR permits the on-line monitoring of intracellular pH as well as high energy phosphate compounds, and thereby provides useful metabolic indices of the severity of ischemia. Since tight coupling was found between changes in these parameters and subsequent recovery of contractile performance, further development of 31P NMR for evaluation of techniques designed to minimize the severity of ischemic damage would seem indicated.
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PMID:Mass spectrometry and phosphorus-31 nuclear magnetic resonance demonstrate additive myocardial protection by potassium cardioplegia and hypothermia during global ischemia. 677 61

It is shown that the amount of ATP in rats under hypothermia up to heat stroke lowers and that of ADP and AMP somewhat rises. Ionol administration normalizes the ATP level and increases the ADP and AMP contents. Inhalation of CO2 and especially administration of ionol contribute to a higher resistance of the animals to hyperthermia.
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PMID:[Influence of hyperthermia and protective effect of ionol and carbon dioxide gas on ATP, ADP and AMP content of the rat brain]. 678 22

Phosphorus-31 nuclear magnetic resonance (31P NMR) can estimate tissue intracellular pH as well as the content of high-energy phosphate metabolites in isolated perfused hearts. We used 31P NMR to examine mechanisms associated with the recovery of ventricular function in hearts subjected to global ischemia and reperfusion, with special emphasis on intracellular pH, a previously unreported variable. Single-dose and multiple-dose administration of a hyperkalemic cardioplegic solution were compared with hypothermia alone in 18 isolated perfused rabbit hearts. Hearts in group 1 were subjected to 24 degrees C hypothermia during 60 minutes of global ischemia; group 2 hearts received a single injection of 37-mM KCL cardioplegic solution at 10 degrees C at the onset of ischemia; and group 3 hearts received a similar initial cardioplegic injection followed by two subsequent 24 degrees C injections at 20-minute intervals during the ischemic period. Using an intraventricular balloon, maximal dP/dt provided a quantitative index of left ventricular performance before and after ischemia. Return of ventricular function expressed as a percentage of control was 54 +/- 11% for group 1, 84 +/- 6% for group 2, and 101 +/- 18% for group 3. Differences in the rate of development of intracellular acidosis were noted during the 60-minute ischemic period. Intracellular pH fell to 6.09 +/- 0.12 in group 1, 6.31 +/- 0.09 in group 2, an 6.79 +/- 0.03 in group 3. In all three groups intracellular pH returned to control (pH 7.20) within 10 minutes of reflow. The metabolic correlates of functional recovery appeared to be the tissue content of ATP at the end of ischemia and after reflow. ATP content at the end of ischemia was 22 +/- 2% of control in group 1 hearts, 31 +/- 4% in group 2 and 64 +/- 2% in group 3. After 45 minutes of reperfusion, ATP levels recovered to 33 +/- 9% of control in group 1, to 71 +/- 9% in group 2 and to 86 +/- 6% in group 3. Although there were no differences between groups in the content of creatine phosphate after 60 minutes of ischemia, the rates of creatine phosphate decline were dissimilar. Further, during the early reflow period, a marked overshoot in tissue creatine phosphate was detected, especially in groups 1 and 2. Histologic damage assessed by light microscopy correlated with the metabolic data, confirming that multidose cardioplegia provided the best preservation of cellular morphology. These results demonstrate that the magnitude of intracellular acidosis and the associated increase in inorganic phosphate correlate inversely with recovery of postischemic ventricular structure and function. ATP, but not creatine phosphate, content correlates with return of contractile performance after reperfusion. The overshoot in creatine phosphate during early reperfusion might impede optimal restoration of ATP content and, as a result, optimal recovery of cell functions.
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PMID:Mechanisms of ischemic myocardial cell damage assessed by phosphorus-31 nuclear magnetic resonance. 679 21

Subendocardial ischemia is a common cause of death following ischemic cardiac arrest. We studied relationships among myocardial water content (WC), left ventricular function, coronary blood flow, and myocardial metabolism following ischemic cardiac arrest. Under cardiopulmonary bypass with hypothermia, 120 min of aortic occlusion was employed, and myocardial temperature was kept around 20 degrees C in 10 mongrel dogs. Left ventricular function (peak LVP, max dp/dt, LVEDP, LVSWI), coronary blood flow, myocardial enzymes (m-GOT, total CPK, MB-CPK), myocardial ATP and creatine phosphate (CP), and WC of the subendocardium of the left ventricle were measured. Data were obtained in the control state and immediately and 30 and 60 min after aortic unclamping. Significant negative correlations were obtained between WC and max dp/dt (r = -0.8384), coronary blood flow (r = -0.9928), ATP (r = -0.7038), and CP (r = -0.7835). Significant positive correlations were obtained between WC and LVEDP (r = 0.7525), m-GOT (r = 0.7638), and total CPK (r = 0.7079). These data suggest that myocardial edema results in depression of left ventricular function and metabolism.
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PMID:Correlation among water content, left ventricular function, coronary blood flow, and myocardial metabolism after hypothermic ischemic cardiac arrest. 685 73

Administered intracisternally, adenosine (ADO), 2-chloroadenosine (CADO), adenosine-5'-cyclopropylcarboxamide (ACC) and adenosine-5'-ethylcarboxamide (AEC) caused dose-related increases in hot plate reaction times in mice. The rank order of potency was AEC=ACC greater than CADO greater than ADO and ACC exerted demonstrable effects with doses as low as 10 ng/mouse. ADO itself was more potent than AMP, ADP, ATP and several other related compounds of interest. Theophylline, caffeine and 8-phenyltheophylline antagonized the antinocisponsive effect of CADO or ACC. Papaverine (an adenosine uptake blocker) and erythro-9-(2-hydroxy-3-nonyl) adenine (EHNA: an adenosine deaminase inhibitor) potentiated the effect of ADO. EHNA did not potentiate the action of CADO in this procedure. The antinocisponsive effect of CADO was not antagonized by a host of neurally active agents including naloxone, clonidine and RO 20-1724. Time course studies indicated that the antinocisponsive effect of ADO was transient with the peak effect occurring 5 min after injection and disappearing by 60 min, whereas the effect of CADO persisted for at least 90 min. Intracisternally administered CADO also caused a pronounced hypothermia, loss of muscle tone and was active in the mouse writhing test. Taken together, these data demonstrate that purine exert potent in vivo behavioral effects and are consonant with the existence of a central purinergic P1-receptor which is amenable to selective pharmacological manipulation.
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PMID:In vivo behavioral assessment of central nervous system purinergic receptors. 689 75

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