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:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Advanced age and cardiovascular diseases cause of SMA occlusion. Shock is triggered and maintained by bowel ischemia. Since lactate is the end product of anaerobic glycolysis, lactacidosis is a valuable clinical parameter. Lactate values above 4-5 mmol/l are conclusive evidence in the presence of symptoms of acute SMA occlusion. Chance of survival are poor in stages II and III with advanced shock and non reversible gangrene. Revascularisation of the SMA combined with adequate bowel resection reduces the production of toxic and lethal substances in the intestinal mucosa, thus increasing the chance of survival. Determination of serum lactate should be an integral part of the diagnostic procedure and the close followup for it is both an adequate index of the grade of intestinal ischemia and a means of assessing whether a second-look is warranted.
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PMID:[Acute mesenteric vascular occlusion: pathophysiology, clinical stages, diagnosis]. 198 61

Coronary hemodynamics, myocardial metabolism and left ventricular function at rest and after incremental atrial pacing were evaluated in 12 patients with stress-induced angina and ST segment depression, angiographically normal coronary arteries and no evidence of spasm, generally labeled as syndrome X, and in 10 normal subjects. At baseline study, great cardiac vein flow was comparable in patients and control subjects. During pacing, an equivalent rate-pressure product was reached in the two groups, but the slope of the relation between rate-pressure product and great cardiac vein flow was significantly less steep in patients than in normal subjects (0.0027 vs. 0.0054 ml/mm Hg.beat, p less than 0.001). Nevertheless, the left ventricular ejection fraction was comparable in both groups at rest (66 +/- 6% vs. 71 +/- 7%, p = NS) and during pacing (71 +/- 7% vs. 66 +/- 5%, p = NS). At baseline study, myocardial glucose extraction was more efficient in patients with syndrome X (p less than 0.05), but net myocardial exchange of pyruvate and alanine was, respectively, smaller and greater than in control subjects. Lactate was extracted to a similar extent in the two groups and in no instance was net lactate release observed during pacing or recovery. During pacing and recovery, patients with syndrome X showed net pyruvate release, unlike the control subjects in whom net pyruvate exchange was positive. In addition, patients with syndrome X continued to show net myocardial extraction of alanine during spacing and recovery, whereas normal subjects produced alanine throughout the study. Myocardial carbohydrate oxidation increased significantly during maximal pacing in normal subjects but not in patients, in whom it always remained below (p less than 0.01) the concurrent rate of myocardial uptake of carbohydrate equivalents (glucose, lactate, pyruvate, alanine). Myocardial energy expenditure was significantly lower in patients than in control subjects at maximal rate-pressure product levels (p less than 0.01). The metabolic pattern in patients with syndrome X therefore is not consistent with classic ischemia, although differences in the net exchange of circulating substrates (glucose, pyruvate, alanine) can be demonstrated. Thus, in patients with syndrome X, the symptoms, electrocardiographic signs and impairment in the increase in great cardiac vein flow during pacing coexist with preserved global and regional left ventricular function and myocardial energy efficiency.
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PMID:Coronary hemodynamics and myocardial metabolism in patients with syndrome X: response to pacing stress. 203 78

An isolated blood-perfused pig heart model has been established in order to evaluate the recovery of hearts obtained from slaughterhouse domestic pigs avoiding anesthesia and direct experiments on animals. Eleven hearts subjected to 9 min of normothermic ischemia were infused with cold modified Bretschneider solution. After 180 min of cardioplegic-induced global ischemia (including 9 min of normothermic ischemia) 8 hearts were reperfused for 120 min. Left ventricular function (measured isovolumetrically by means of a balloon, and expressed as developed left ventricular pressure, positive and negative dP/dt) was stable during the whole reperfusion period. Lactate production was abolished after 25 min of reperfusion, while there was a small glucose extraction during the whole reperfusion period. Slight deterioration of the mitochondria was found during the induced cardiac arrest, however, reversing during the reperfusion. Thus, due to the stability of left ventricular function, improved metabolism and ultrastructure during the reperfusion period, the model with no use of laboratory animals, and without any influence of anesthesia, seems to be suitable for testing the pure effect on the performance of the left ventricle of drugs and substrates added to the reperfusate during the reperfusion period.
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PMID:Recovery after cold cardioplegic arrest of isolated blood-perfused hearts excised from non-anesthetized pigs. 207 92

Following transient ischemia of the brain, the coupling between somatosensory activation and the hemodynamic-metabolic response is abolished for a certain period despite the partial recovery of somatosensory evoked responses. To determine whether this disturbance is due to alterations of the stimulus-induced neuronal excitation or to a breakdown of the coupling mechanisms, cortical spreading depression was used as a metabolic stimulus in rats before and after ischemia. Adult rats were subjected to 30 min of global forebrain ischemia and 3-6 h of recirculation. EEG, cortical direct current (DC) potential, and laser-Doppler flow were continuously recorded. Local CBF (LCBF), local CMRglc (LCMRglc), regional tissue contents of ATP, glucose, and lactate, and regional pH were determined by quantitative autoradiography, substrate-induced bioluminescence, and fluorometry. Amplitude and frequency of the DC shifts did not differ between groups. In control animals, spreading depression induced a 77% rise in cortical glucose consumption, a 66% rise in lactate content, and a drop in tissue pH of 0.3 unit. ATP and glucose contents were not depleted. During the passage of DC shifts, transient increases (less than 2 min) in laser-Doppler flow were observed, followed by a post-spreading depression hypoperfusion. A comparable although less expressed pattern of hemodynamic and metabolic changes was observed in the postischemic rats. Although baseline LCMRglc was depressed after ischemia, it was activated 47% during spreading depression. Lactate increased by 26%, pH decreased by 0.3 unit, and ATP and glucose remained unchanged. The extent of the transient increase in laser-Doppler flow did not differ from that of the control group, and a post-spreading depression hypoperfusion was also found.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Metabolic and hemodynamic activation of postischemic rat brain by cortical spreading depression. 211 36

Aspects of hyperglycemic ischemia were simulated in cultures of astrocytes and of neurons by high glucose and dinitrophenol exposure. Lactate release increased almost sevenfold and it was found that astrocytes were responsible for 92% of the release. There was no significant increase in internal lactate content. Experiments involving loading of astrocytes with lactate at different external pH values showed that lactate accumulation was increased by an increased inward proton gradient. This inward transport of lactate probably consists of two transport components, a passive diffusion of its neutral form and transport via a recently described monocarboxylic acid carrier. It was found that lactate did not get trapped in astrocytes, despite the fact that loading of astrocytes with lactic acid by exposure to 30 mM lactic acid increased the membrane input resistance dramatically. We conclude that lactate is released as lactic acid from astrocytes and equilibrates quickly with all CNS compartments. Thus we argue against a role of lactate accumulation in cytotoxic swelling.
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PMID:Simulation of aspects of ischemia in cell culture: changes in lactate compartmentation. 214 54

We assessed the effect of 1,3-butanediol on cerebral energy metabolism and edema after inducing multifocal brain infarcts in 108 rats by the intracarotid injection of 50-microns carbonized microspheres. An ethanol dimer that induces systemic ketosis, 25 mmol/kg i.p. butanediol was injected every 3 hours to produce a sustained increase in the plasma level of beta-hydroxybutyrate. Treatment significantly attenuated ischemia-induced metabolic changes by increasing the concentrations of phosphocreatine, adenosine triphosphate, and glycogen and by reducing the concentrations of pyruvate and lactate. Lactate concentration 2, 6, and 12 hours after embolization decreased by 13%, 44%, and 46%, respectively. Brain water content increased from 78.63% in six unembolized rats to 80.93% in 12 saline-treated and 79.57% in seven butanediol-treated rats 12 hours after embolization. (p less than 0.05). The decrease in water content was associated with significant decreases in the concentrations of sodium and chloride. The antiedema effect of butanediol could not be explained by an osmotic mechanism since equimolar doses of urea or ethanol were ineffective. Our results support the hypothesis that the beneficial effect of butanediol is mediated through cerebral utilization of ketone bodies arising from butanediol metabolism, reducing the rate of glycolysis and the deleterious accumulation of lactic acid during ischemia.
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PMID:Beneficial effect of 1,3-butanediol on cerebral energy metabolism and edema following brain embolization in rats. 221 11

Lactic acid accumulation has been implicated in the evolution of brain damage after ischemia. Since compartmentation of lactate may play a role in acid-base balance, lactate release from gerbil hippocampal slices was examined during a number of metabolic stresses including elevated [K+]e, ischemia, anoxia, and aglycemia. Slices were preincubated for 1 hr in artificial cerebrospinal fluid (ACSF) equilibrated with 95% O2/5% CO2 (pH 7.4 at 37 degrees C) and then transferred to tubes containing 300 microliters of test medium. The rate of lactate release in control slices was 9.64 nmol/min/mg protein and increased 2.6- and 3.2-fold in the presence of 60 mM potassium and anoxia, whereas the rate of lactate release was decreased by 50 and 25% during ischemia and aglycemia. Lactate release was temperature dependent and was only minimally influenced by removing Ca2+ or by adding 5 mM d-lactate to the ACSF. In contrast, pyruvate inhibited lactate release with an apparent Ki of 2.4 mM. The results suggest that lactate can be released from cells via a saturable and stereospecific lactate transporter with an apparent Km of 10.7 mM and Vmax of 43.7 nmol/mg protein/min. Such a relatively high-capacity transporter system can rapidly equilibrate brain lactate but is probably not involved in regulating intracellular acid-base balance.
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PMID:Lactate compartmentation in hippocampal slices: evidence for a transporter. 227

Impaired myocardial fatty acid and glucose metabolism following ischemia and cardioplegia may limit the recovery of myocardial oxidative metabolism and ventricular function. Lactate, a simple three carbon compound, can be readily metabolized to pyruvate and is possibly the preferred substrate for aerobic metabolism. Therefore, increasing arterial lactate concentrations may improve myocardial metabolic recovery after ischemia and cardioplegia. Myocardial lactate metabolism and ventricular function were assessed in a canine model of 45 mins of global normothermic ischemia followed by 60 mins of cold potassium cardioplegic arrest. Thirteen dogs received a perioperative infusion of sodium lactate to elevate arterial concentrations (from 6 to 12 mmol/L) and 12 dogs received an equivalent amount of saline. The high arterial lactate concentrations were associated with an increased myocardial lactate consumption and oxidation (as assessed by 14C-labelled lactate) during reperfusion. Myocardial ATP concentrations fell during reperfusion despite improved myocardial oxidation. The recovery of ventricular function (as assessed by a compliant intraventricular balloon) was incomplete and only marginally better with the high arterial lactate concentrations. An infusion of lactate improved myocardial oxidative metabolism following ischemia and cardioplegia. However, the recovery of ventricular function was incomplete perhaps because of inadequate preservation of myocardial ATP.
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PMID:The effect of lactate infusion on myocardial metabolism and ventricular function following ischemia and cardioplegia. 231 Sep 94

To determine the relation between regional myocardial blood flow, contractile function, and myocardial lactate release during mild-to-moderate regional myocardial ischemia, nine open-chest swine were instrumented for measurement of regional myocardial blood flow (microsphere method), contractile function (sonomicrometry), and hemodynamics. L-[1-14C]Lactate or L-[U-13C]lactate was infused intravenously using a primed continuous infusion technique to quantify regional myocardial lactate release. D-[U-13C]glucose or D-[6-14C]glucose was simultaneously infused to determine the contribution of exogenous glucose to lactate release. Graded coronary ischemia (two to three levels) was created in the left anterior descending coronary arterial distribution by mechanically constricting the artery in five animals or by decreasing flow through a cannulated left anterior descending artery in four animals. In all nine animals, subendocardial blood flow was 0.99 +/- 0.21 (ml/min)/g during control and 0.34 +/- 0.14 (ml/min)/g during the most severe grade of underperfusion (p less than 0.001) in the left anterior descending coronary arterial distribution. Regional myocardial lactate release was 0.15 +/- 0.09 and 1.19 +/- 0.75 mumols/ml, respectively (p less than 0.003). A highly significant inverse correlation was observed between subendocardial blood flow and myocardial lactate release during the graded reductions in blood flow (r = -0.71, p less than 0.001). Results from sonomicrometry showed a significant reduction in contractile ventricular function in the anterior wall during the graded reductions in blood flow. The regional arterial-venous glucose difference increased significantly with underperfusion in the left anterior descending coronary arterial distribution, from 0.14 +/- 0.15 to 0.56 +/- 0.37 mumols/ml (p less than 0.003). The contribution of exogenous glucose to lactate release also increased significantly; 0.04 +/- 0.03 mumols/ml of the lactate came from exogenous glucose during control compared with 0.64 +/- 0.59 mumols/ml during the most severe underperfusion (p less than 0.02). A significant positive correlation exists between lactate release and lactate from exogenous glucose during graded underperfusion (r = 0.96, p less than 0.001). In summary, these data demonstrate a close inverse relation between regional myocardial lactate release and regional subendocardial blood flow during graded ischemia.
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PMID:Myocardial lactate release during ischemia in swine. Relation to regional blood flow. 234 86

The effect of myocardial preservation with perfluorochemical as cardioplegic solution was studied with isolated canine hearts which was compared between intermittent coronary perfusion and continuous coronary perfusion. Intermittent perfusion group (group I) was infused every 30 minutes during 5 hours ischemia with oxygenated perfluorochemical at the amount of 10 ml/kg. Continuous perfusion group (group II) was infused continuously at the amount of 10 ml/kg/30 minutes. After 5 hours of ischemic time, total perfusion volume of both group were same 100 ml/kg. The comparison of myocardial preservation effect between group I and group II was examined with biochemical study, hemodynamic study and histological study. As a result, biochemical study such as GOT, CPK, and Lactate showed higher in group II than in group I, and value of catecholamine and adenylate levels in myocardial tissue showed higher in group I than in group II. In hemodynamic study, LVSW and LVEDP showed excellent value in group I, but never showed adequate function in group II at late working phase. On the other hand, LVmax dp/dt was recovered excellently in group I but in group II was not recovered at early working phase. In histological findings with electronic microscopy, there were some limited ischemic lesion in group II, which was suggested disturbance of micro circulation. It may be attributable to low perfusion pressure of continuous perfusion method. Finally, with regard to SOD (Super oxide dismutase) consumption, group I took higher than group II, and also oxygen consumption. It shows that in group I there is an effective activity of aerobic metabolism during ischemia, which explain not only the improved functional recovery but also generation of free radical, caused by super oxide etc. It is concluded from these results that intermittent perfusion has provided excellent preservation against myocardial ischemia, and also has possibility of danger to set up reperfusion injury.
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PMID:[Experimental study on myocardial preservation by perfluorochemical "comparison of myocardial preservation effect between continuous perfusion and intermittent perfusion"]. 239 94


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