Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Studies utilizing in vitro microperfusion were designed to examine whether urea is actively or passively transported across superficial and juxtamedullary straight segments of rabbit proximal tubules. With perfusate and bath solutions containing 1 mM urea and electrolytes similar to normal plasma, the efflux (lumen-to-bath) isotopic permeability (X 10(-5) cm s-1) of superficial segments was 1.37 +/- 0.16 and of juxtamedullary segments was 2.14 +/- 0.20. In the same tubules, the influx (bath-to-lumen) isotopic permeability was 3.70 +/- 0.35 in superficial segments and 4.75 +/- 0.37 in juxtamedullary segments. Despite net water movement in the opposite direction (0.5 nl mm-1 min-1), the influx rate was significantly higher than the efflux rate of urea in both groups. With a low perfusion rate (2 nl/min) and equivalent specific activities of [14C]urea in bath and perfusate, the collected-to-perfused ratio of [14C]urea, corrected for volume marker change, was 1.07 +/- 0.01 in superficial and 1.09 +/- 0.01 in juxtamedullary nephrons, thus indicating net secretion in both segments. In separate studies urea influx was inhibited by hypothermia (decrease from 37 degrees to 28 degrees C), by phloretin (0.1 mM in bath), by cyanide (1 mM), but not by probenecid (0.2 mM). In each case the inhibition was highly significant and reversible. These data suggest that urea is actively secreted by the straight segments of both the superficial and juxtamedullary proximal tubules. These segments may, therefore, contribute significantly to the high urea concentration found at the bend of Henle's loop by micropuncture.
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PMID:Urea secretion by the straight segment of the proximal tubule. 95 89

The effect of almitrine bimesylate or the solvent malic acid on pulmonary vascular perfusion pressure was assessed in isolated rat lungs and on the contractile behavior of rat aorta and main pulmonary artery rings. Addition of almitrine to the lung perfusate during normoxia caused a dose-dependent, transient increase in pulmonary artery pressure with no change of the lung microvascular pressure. In systemic or pulmonary conduit arteries, the contractile tension was unaffected by almitrine. This indicates a precapillary locus of drug action. We also examined almitrine's effect on hypoxic pulmonary vasoconstriction (HPVC) in isolated lungs perfused with blood or with physiological salt solution (PSS). Low-dose almitrine potentiated hypoxic vasoconstriction in blood- but not in PSS-perfused lungs. However, a high dose of almitrine reduced hypoxic vasoconstriction dose dependently. When almitrine was added to the lung perfusate during hypoxia- or cyanide-induced (NaCN, 5 x 10(-5) M) pulmonary vasoconstriction, almitrine caused no further vasoconstriction. However, when the pulmonary perfusion pressure was elevated by KCl (20 mM) to the same magnitude as by alveolar hypoxia or cyanide, almitrine elicited a pressor response comparable to that observed during normoxia. Almitrine-induced pulmonary vasoconstriction resembled hypoxic vasoconstriction in that agents known to enhance hypoxic vasoconstriction (phorbol myristate acetate, vanadate, and 4-aminopyridine) enhanced, and known inhibitors of HPVC (the Ca2+ entry blocker nifedipine and hypothermia) inhibited, the almitrine-induced vasoconstriction. These findings lead us to speculate that almitrine also affects the oxygen-sensing limb of the hypoxic pressor response, not simply the effector (contractile apparatus of the vascular muscle cell).
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PMID:Almitrine mimics hypoxic vasoconstriction in isolated rat lungs. 151 Jan 35

Levine-prepared, female Sprague-Dawley rats were used to investigate the effects of carbon monoxide (CO) and cyanide (CN) on heart rate, blood pressure, hematocrit, body temperature, blood glucose, lactate, and neurologic function. Rats were exposed to either 2400 ppm CO, 1500 ppm CO, 4 mg/kg NaCN, or both 1500 ppm CO and 4 mg/kg NaCN for 90 min, followed by 4 h of room air recovery. Following exposure to 2400 ppm CO, rats exhibited a significant bradycardia which normalized by 2 h of recovery. All groups exhibited an initial hypotension which was either maintained or exaggerated during exposure in all but the rats exposed to CN, and which returned to pre-exposure values by 90 min. All groups experienced a significant hypothermia during the exposure period, with those in the 1500 ppm CO or the CN returning to initial values over the recovery period. The only significant change in hematocrit was due to 2400 ppm CO (4.1% increase). During exposure, all groups experienced an initial surge in glucose concentration which was maintained in all but rats exposed to 2400 ppm CO. The greatest hyperglycemic response resulted from the combination of CO and CN, whereas 2400 ppm CO produced the smallest. CN alone produced no significant rise in lactate concentration. However, lactate concentration in all other groups was significantly elevated during the exposure period, returning to initial values by 4 h of recovery. Lactate concentrations and neurologic deficit in rats exposed to 1500 ppm CO, when added to those rats treated with CN, closely approximated the lactate and neurologic deficit of the combination treatment. Neurologic deficit was greatest in rats exposed to 2400 ppm CO. While in most cases the responses of the rats to CO and CN differed whether the substances were administered alone or in combination, a synergistic relationship is not suggested. An additive or less than additive relationship is more likely.
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PMID:Cardiovascular, metabolic and neurologic effects of carbon monoxide and cyanide in the rat. 164 71

Erythrocyte cyanide levels were determined by a sensitive fluorimetric method on four occasions during coronary bypass in hypothermia in 18 consecutive patients treated with sodium nitroprusside (SNP) with an infusion rate less than 1 microgram x kg-1 x min-1. Every second patient received the cyanide antidote thiosulphate simultaneously with the SNP-infusion. At normal body temperature, as well as during hypothermia in cases receiving thiosulphate, the cyanide levels rose slowly but significantly with the infusion rate. Higher erythrocyte cyanide levels in relation to the infusion rates, up to 8.0 mumol/l, were found during hypothermia in two of the cases not receiving thiosulphate. We conclude that SNP is broken down to cyanide even under hypothermia and that low body temperature may impair the conversion of cyanide to thiocyanate, probably by affecting the metabolic pathways providing the sulphur substrate. This effect may add to other factors decreasing sulphur availability in critically ill patients, and simultaneous administration of thiosulphate is therefore recommended to ensure a safe SNP treatment during and after coronary bypass operations.
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PMID:Cyanide release from sodium nitroprusside during coronary bypass in hypothermia. 258 1

At a rectal temperature of 25 degrees C, six patients undergoing hypothermic cardiopulmonary bypass received intravenous infusions of sodium nitroprusside (SNP) at a rate of 7.3 +/- 1.7 micrograms/kg/min for 20 minutes. Total SNP dose per patient was 11.0 +/- 1.1 mg. Blood samples for serum cyanide (CN-), red blood cell cyanide (RBC CN-), and thiocyanate (SCN-) determinations were drawn immediately before SNP infusion. These determinations were repeated at the end of the infusion, at the start of rewarming, and at a rectal temperature greater than 34 degrees C and 1, 4 (five subjects), and 24 hours (three subjects) thereafter. Extracorporeal blood flow was held constant at 2.4 L/min/m2 and mean arterial pressure was maintained between 50 to 100 mm Hg with phenylephrine (3.62 +/- 0.75 mg) during SNP infusion and trimethaphan (37.8 +/- 15.6 mg) after the end of the infusion. There was a significant increase in RBC CN- after the SNP infusion that lasted until the subjects were rewarmed. One subject developed a peak RBC CN- level of 0.8 microgram/ml. Plasma CN- levels changed little throughout and SCN- levels were elevated only after rewarming. The nonenzymatic release of free CN- from SNP was not inhibited by hypothermia, while the enzymatic detoxification of CN- to SCN- may have been delayed.
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PMID:Effect of hypothermic cardiopulmonary bypass on nitroprusside metabolism. 400 67

Previous reports from our laboratory indicated that prophylactic protection against cyanide intoxication in mice can be enhanced by administration of chlorpromazine when it is given with sodium thiosulfate. The mechanism of potentiation of sodium thiosulfate by chlorpromazine was studied alone and in combination with sodium nitrite. Although chlorpromazine was found to induce a hypothermic response, the mechanism of enhancement of the antagonism of cyanide by chlorpromazine does not correlate with the hypothermia produced. Various other possible mechanisms were investigated, such as rate of methemoglobin formation, enzymatic activity of rhodanese and cytochrome oxidase, and alpha-adrenergic blockade. The alpha-adrenergic blocking properties of chlorpromazine may provide a basis for its antidotal effect, since this protective effect can be reversed with an alpha-agonist, methoxamine.
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PMID:Effect of chlorpromazine on cyanide intoxication. 631 90

The effect of temperature on the release of cyanide from sodium nitroprusside (SNP), a potent vasodilating drug, was studied in vitro. It was observed that higher temperatures accelerate the degradation rate of SNP and facilitate the formation of cyanmethemoglobin in blood. The results indicate that hypothermia which is often used in combination with SNP may reduce the incidence of cyanide toxicity by slowing the degradation of SNP.
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PMID:Temperature dependent release of cyanide from sodium nitroprusside. 667 30

Acute cyanide (CN) toxicity was investigated in the Sprague-Dawley rat. Conscious, loosely restrained rats received sodium CN solution at varying dose rates through a jugular cannula (low CN, 0.077-0.155 mg/kg/min; high CN, 0.157-0.204 mg/kg/min). Blood glucose concentration was significantly increased 45 min after initial CN treatment in both the low and the high CN groups compared to the saline controls. Blood lactate concentration was significantly increased only in the high CN group after 45 min. Lactate increased directly with CN dose rate in surviving high CN rats. In rats that succumbed during CN infusion, lactate concentration reached nearly 150 mg/dl. Body temperature decreased modestly at low CN dose rates, but increased markedly at high CN dose rates. Heart rate was relatively constant in the low CN group, but decreased rapidly in the high CN group with increasing CN dose rate. In rats surviving CN treatment, no significant alterations in either cerebral cortical water content or neurologic status were detected. This contrasts with another potent poison, carbon monoxide, which produces marked neurologic deficit and cerebral edema in this animal model. The mean lethal CN dose was 4.6 mg/kg (range 4.25-4.90 mg/kg). Expressed on the basis of CN infusion rate, the lethal zone was from 0.16 to 0.21 mg/kg/min, a surprisingly narrow range. Assuming that extrapolations are possible to other species, the data provide strong evidence that greatly elevated blood lactate may be a useful marker for CN poisoning very near or within the lethal zone.
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PMID:Metabolic, cardiovascular, and neurologic aspects of acute cyanide poisoning in the rat. 786 26

Carbon monoxide (CO) and cyanide (CN), commonly found in exhaust fumes and smoke, act as hypoxic agents in eliciting morbid and lethal effects. This study explored the effects of these two toxicants on the ECG in a controlled and well-characterized animal model. Levine-prepared awake female rats were treated with 1500 and 2400 ppm CO for 90 min, CN at 4 mg/kg, or 1500 ppm CO plus 4 mg/kg CN. As in past studies, CO initially induced hyperglycemia and many-fold increases in blood lactate concentration, and rebound increases in blood glucose during recovery. CN produced hyperglycemia, however, there was no glucose rebound, nor was there a significant increase in lactate. CN plus 1500 ppm CO produced glucose changes similar to that of CO alone. CO exposure also induced hypothermia and hypotension, while CN produced little change in these parameters. CO increased heart rate, while CN tended to decrease heart rate. PR interval was increased significantly 4.5-17.0 ms by exposure to CO, with or without combination with CN, while CN alone produced minimal change in the PR interval. QT interval was increased up to 20 ms by exposure to CO, with or without combination with CN. CN alone produced no change in the QT interval. T wave duration was increased up to 22.5 ms by exposure to 1500 ppm CO, with or without combination with CN. CN alone produced minimal changes in T wave duration. There were no changes in duration of the (Q)RS complex or of the R wave. QT interval lengthening was positively correlated with the decrease in systolic blood pressure (0-30 min, r = 0.657, P < 0.05; 0-60 min, r = 0.704, P < 0.05). Hypothermia was correlated with increase in lactate concentration (r = 0.73, P < 0.05) and with decrease in blood pressure (r = 0.69, P < 0.05). No correlation between body temperature and QT interval was observed. The results indicate that CO at the concentrations used in the Levine-prepared rat has major effects on the ECG in slowing AV conduction and ventricular repolarization. In contrast, CN at 4 mg/dl has little or no effect on either conduction or repolarization in this animal model. These findings are discussed in light of past animal and human studies.
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PMID:Electrocardiographic responses to carbon monoxide and cyanide in the conscious rat. 821 56

Using the dialysis technique, we examined the effect of moderate hypothermia on the norepinephrine efflux evoked by ouabain, tyramine and cyanide in anesthetized cats. Dialysis probes were implanted in the left ventricular myocardium, and we measured the dialysate norepinephrine levels as an indicator of norepinephrine output at the cardiac sympathetic nerve endings. Through the dialysis probe, locally applied ouabain, tyramine and cyanide induced the norepinephrine efflux. The addition of desipramine (neuronal norepinephrine transport blocker, 100 microM) suppressed the norepinephrine efflux evoked by ouabain, tyramine and cyanide. This finding suggests that pharmacological agent-induced norepinephrine efflux was due to carrier-mediated outward norepinephrine transport. Moderate hypothermia (27.4 +/- 0.2 degrees C) caused suppression of the norepinephrine efflux evoked by ouabain, tyramine and cyanide. We conclude that moderate hypothermia suppresses the non-exocytotic norepinephrine release evoked by ouabain, tyramine and cyanide.
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PMID:Effects of moderate hypothermia on norepinephrine release evoked by ouabain, tyramine and cyanide. 1268 6


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