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)

The isolated perfused working rat heart preparation has been used to study the effects of respiratory acidosis on myocardial metabolism and contractilly. Hearts were perfused with 5 mM glucose and 10(-2) U/ml of insulin in order to enhance metabolsim of glucose relative to that of fatty acids. After perfusion with Krebs bicarbonate medium at pH 6.6, hearts rapidly ceased performing external work and peak left ventricular pressure fell by 75% after 5 minutes. Oxygen consumption, rate of ATP generation and overall glycolytic flux also declined rapidly. After about 2 minutes of perfusion, the fall of glycolytic flux showed a partial reversal, which was largely accounted for by increased lactate production, so that glucose oxidation decreased further. The reversal of glycoltic flux could be accounted for by partial release of H+ inhibition of phospho-fructokinase by increased tissue levels of adenosine 5'-diphosphate (ADP), adenosine monophosphate (AMP) and P1 and decreased levels of adenosine triphosphate (ATP) and creatine phosphate. The increased proportion of glucose uptake converted to lactate together with an increase of the tissue lactate/pyruvate ratio could be accounted for by inhibition of the malate-aspartate cycle combined with tissue hypoxia. Lactate accumulated in the tissue as a result of a decreased permeability of the plasma membrane to lactate. Decreased oxygen delivery to the myocardium was caused by secondary constriction of the coronary vessels. In further experiments, the coronary flow was regulated by an external pump which delivered fluid at a controlled rate into the aortic cannula above the coronary arteries, and the degree of tissue hypoxia was monitored by measuring changes of pyridine nucleotide reduction state by surface fluorescence techniques. The effects of acidosis uncomplicated by possible hypoxia were compared directly with those produced by ischemic hypoxia. The effects of acidosis under these conditions were similar to those described above, and to those produced by ischemia. From these and other data it is concluded that the effects of ischemia are caused by a lowering of the intracellular pH, which decreases the rate of energy production relative to the rate of energy demand. However, it is suggested that the primary cause of the decreased peak systolic pressure with either acidosis or ischemia is not a result of a defect of energy metabolism, but is due to alteration of the calcium cycle of the heart. Possible causes of irreversible heart failure after prolonged ischemia are discussed.
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PMID:Contribution of tissue acidosis to ischemic injury in the perfused rat heart. 0 93

Myocardial cell pH was measured with 5, 5 dimethyl-2, 4-oxazolidinedione (DMO) in intact anesthetized dogs by a transient indicator dilution technique. Bolus injections of labeled DMO, vascular, extracellular and water indicators were made into the left anterior descending coronary artery, and blood samples were collected from the great cardiac vein. The steady state distribution of DMO between cells and plasma was calculated from the mean transit times of the indicator. Normal myocardial cell pH averaged 6.94 and changed by 58% of the concomitant alterations in plasma pH after infusions of acid or alkali. Myocardial ischemia induced by inflation of a balloon tip catheter in the left anterior descending coronary artery resulted in progressive decreases in cell pH to 6.59 by 1 hour. Infusions of sodium carbonate diminished intracellular acidosis. Hemodynamic studies during 4 hours of ischemia with blood pH at 7.55 to 7.60 indicated a significantly reduced left ventricular end-diastolic pressure and increased stroke volume by comparison with findings in animals given infusions of saline solution. Ventriculograms revealed improved wall motion in the ischemic segment after infusion of alkali. Precordial mapping showed a significant reduction in the number of leads with S-T segment elevation as well as in the sum of S-T segment elevations, but R wave amplitudes did not differ from those in control studies. Calculations of extracellular space, tissue water and cation content revealed a reduced gain of cell sodium ion and loss of cell potassium ion during ischemia after alkali treatment. The latter may account for the S-T segment responses, whereas enhanced ventricular performance may be related to reduced competition of hydrogen ion with calcium ion for binding sites on contractile protein.
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PMID:Myocardial ischemia and cell acidosis: Modification by alkali and the effects on ventricular function and cation composition. 0 59

The major ionic conductances underlying electrical activity in cardiac tissues are described. The participation of electrogenic active transport in electrical phenomenon and the influence of metabolic inhibition on cardiac action potentials are briefly summarized. Some electrophysiological effects of lactate and acidosis, such as might be induced by ischemia, are described. In dog Purkinje fibers, lactate (20 mM pH 7.0) may induce transient periods of arrhythmias. Acidosis decreases rapid sodium conductance, slow calcium-sodium conductance, and anomalous and delayed rectifications in frog atrial fibers. CO2-induced acidosis (20% CO2, pH 6.6) may alter the repolarization phase of the action potential in dog Purkinje fibers, presumably because it decreases potassium conductance. Alterations consist of partial depolarizations (humps) that result in reexcitation of the fibers and lead to a maintained depolarization. It is proposed that acidosis induces a decrease in potassium conductance that can be responsible for ectopic foci causing arrhythmias during ischemia.
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PMID:Control of ionic permeabilities in normal and ischemic heart. 0 3

In studies in the isolated rat heart that were designed to optimize the composition of the infusion conditions for a cardioplegic protective solutuin, we have observed a complex relationship between the duration and volume of infusion and the extent of tissue protection. Our results would indicate that solutions, such as that formulated at St. Thomas' Hospital, which are based on extracellular electrolyte content, afford (after a brief equilibration period) a constant degree of protection, irrespective of infusion volume or duration. In contrast other solutions, such as the Bretschneider solution, which have extremes of electrolyre concentration, are associated with a complex dose-response relationship. In the latter instance, infusion of small volumes for short durations affords an increasing degree of protection against ischemia. Increasing the infusate volume may result in a progressive loss of protection. Excessive infusion may lead to an exacerbation of ischemia-induced damage. Our studies suggest that the relative patterns and rates of re-equilibration of various ions, especially sodium and calcium, during infusion may play a major role in determining the efficacy of the infusate.
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PMID:Protection of the ischemic myocardium. Volume-duration relationships and the efficacy of myocardial infusates. 2 95

The direct and indirect actions on left ventricular dynamics of contrast material (sodium meglumine diatrizoate) currently used for coronary arteriography, modified ionic material (sodium meglumine calcium metrizoate) and non-ionic material (metrizamide) were assessed in conscious and anesthetized dogs. In both anesthetized and conscious animals, the diatrizoate compound caused an early (3--10 sec after injection) decrease in peak dp/dt and dp/dt/LVP40, followed by late (10--20 sec after injection) increases in these variables. The predominant early and later effects of the calcium metrizoate compound were increases in parameters of LV contractile state. Metrizamide produced no significant early alterations, but later induced a small increase in these variables. The positive inotropic actions of each of the contrast materials were attenuated by beta adrenergic blockade. The early effects of the contrast materials were similar in the presence of segmental ischemia. The late positive inotropic effects in response to the diatrizoate compound and metrizamide were not observed in the ischemic state, while the positive inotropic response induced by the calcium metrizoate compound was significantly reduced. Thus intracoronary administration of sodium meglumine diatrizoate produced direct myocardial depression, followed by adrenergically mediated myocardial stimulation. Calcium metrizoate caused prominent direct and adrenergically mediated augmentation in contractile state. Metrizamide induced the least alteration in LV contractile state.
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PMID:Direct and reflex myocardial effects of intracoronary administered contrast materials in the anesthetized and conscious dog: comparison of standard and newer contrast materials. 3 Jul 33

Construction and fit to the experimental data of a computer model of glycolysis, the Krebs cycle, and related metabolism in an ischemic dog heart preparation, involving 122 metabolites, 65 enzymes, and 406 chemical reactions, is described. The experimental preparation simulated is a dog heart excised from the body, placed in a beaker of Tyrode's solution, and sampled for 100 min; the model required only moderate modification from models representing perfused rat hearts, and little modification from a model of another ischemic dog heart preparation. Common underlying mechanisms for the ischemia are indicated, although this preparation appears to evolve more slowly with time, perhpas owing to heavy sedation and diffusion-limited transport. Lactate is, at first, exported and then accumulates intracellularly; pH falls, but not as much in the mitochondria as the cytoplasm; redox couples go reduced, but with counterintuitive time courses; calcium phosphate is calculated to precipitate, as often observed in cardiac ischemia.
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PMID:Metabolism of totally ischemic excised dog heart. I. Construction of a computer model. 4 Apr 39

Subendocardial hemorrhagic necrosis in an important cause of death following cardiopulmonary bypass. The transmural distribution of flow across the left ventricle (LV), septum (SP), and right ventricle (RV) is a complex interaction of vascular resistance and myocardial compressive resistance. We studied the change in transmural blood flow in LV, SP, and RV, and left ventricular volume, following administration of cardiotonic and vasoactive drugs in the fibrillating heart. The drugs studied included calcium with and without ATP-induced vasodilation, isoproterenol, epinephrine, angiotensin, and ouabain. Calcium produced underperfusion of LV subendocardium with or without previous ATP vasodilation. Isoproterenol also caused underperfusion of LV subendocardium. Both calcium and isoproterenol decreased ventricular volume. Angiotensin increased resistance in the subepicardium and increased flow in the subendocardium, with no change in ventricular volume. Epinephrine and ouabain caused no consistent changes in transmural flow. The decreased ventricular volume produced by calcium and isoproterenol restricts flow in the subendocardium because of increased compressive resistance. Increased subendocardial flow with angiotensin indicates that subepicardial vasodilation in the fibrillating heart causes epicardial "steal," which contributes to subendocardial ischemia.
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PMID:Effect of cardiotonic and vasoactive drugs on transmural flow distribution and ventricular volume in the fibrillating heart on cardiopulmonary bypass. 4 21

In poorly perfused myocardium with resultant ischemic dysfunction, augmentation of contractility can, under certain conditions, be used to detect viable but ordinarily noncontracting muscle. Two methods of inotropic augmentation, pharmacologic inotropic stimulation and postextrasystolic potentiation (PESP), were studied in acutely ischemic canine myocardium with controlled coronary blood flow. A caliper length gauge to record segmental shortening and left ventricle pressure was used to construct pressure-length loops. Acute regional ischemia depressed segmental function: early segmental shortening decreased (-20 plus or minus 0.02% [SE]) and frequent dyskinesia occurred. Restoring coronary blood flow corrected segmental shortening to control levels. During acute regional ischemia, PESP consistently augmented segmental function (+49 plus or minus 0.03%) and abolished dyskinesia. Pharmacologic inotropic stimulation with isoproterenol or calcium administered into the coronary arteries did not produce a comparable improvement in segmental function (+9 plus or minus 0.05%). Although early shortening markedly increased with pharmacologic stimulation, there was no consistent change in total shortening, and the area of the pressure-length loop decreased. Due to late dyskinesia, there was a decrease in injection shortening. Systemically administered pharmacologic agents accentuated early dyskinesia but caused no consistent change in total shortening. Unlike PESP, pharmacologic agents either worsened segmental function or caused responses that were minimum and inconsistent; such responses clearly cannot be used to identify viable ischemic myocardium.
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PMID:Detection of latent function in acutely ischemic myocardium in the dog: comparison of pharmacologic inotropic stimulation and postextrasystolic potentiation. 4 92

Ischemia development was accompanied by inhibition of the enzymatic transport system (ETS) of Ca2+ (reduction of the Ca2+/ATP value and of the Ca2+-dependent ATPase activity), this correlating with the accumulation of primary and secondary molecular products of lipid peroxidation (LPO) in the sarcoplasmic reticulum membranes of the skeletal muscles, in vivo. Administration of antioxidants (2,6-ditretbutyl-4-methylphenol, alpha-tocopherol) prevented the LPO activation in the ischemic muscle and partially protected the ETS of Ca2+ from damage. The blood supply restoration after prolonged ischemia led to further ETS of Ca2+ inhibition against the background of unchanges LPO products level.
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PMID:[Damage to the sarcoplasmic reticulum of skeletal muscles in leukemia: role of lipid peroxidation]. 14 58

We have studied serially by light and electronmicroscopy the development of lesions of the adipose tissue of the bone marrow of the rabbit following intravenous injections of saponin. Two types of steatonecrotic lesions were seen: in the femur giant-cell granulomas surrounding necrotic fat cells and in the sternum, small foci of fat necrosis containing calcified deposits. In both cases the lesions were of ischemic origin and secondary to the destruction of the microcirculation of the bone marrow by saponin. These studies suggest that necrosis of the bone marrow fat cells can contribute to the pathogenesis of myelofibrosis. They also suggest that adipose tissue responds differently to ischemia depending on topography. In hematopoietic marrow necrosis of fat cells is followed by calcium deposits, whereas in fatty marrow necrosis leads to resorptive giant cell reaction.
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PMID:Experimental bone marrow fat necrosis. 14 11


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