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)

Regional ischemia results in infarction even in the presence of residual oxidative metabolism. Although glycolytic flux is relatively inhibited at the level of phosphofructokinase, glucose competes more effectively than does free fatty acid for the residual oxygen supply. Glycogen is not the major energy source until effective collateral flow is virtually zero.
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PMID:Estimated glycolytic flux in infarcting heart. 13 60

The conducting system was studied in an in situ perfused swine heart preparation with reduced coronary flow (ischemia) using perfusate containing high and low levels of glucose (26.6 versus 8.6mM) with and without insulin. Coronary flow was maintained at normal levels for 60 minutes in control hearts. In ischemic hearts flow was reduced to about 50 percent of control levels for 30 minutes. Ultrastructural studies documented only subtle modifications of Purkinje fibers in ischemic hearts. Glycogen depletion and disruption of cell junctions were observed in some fibers. One consistent finding was the activation of the lysosomal system. The outer membranes of primary lysosomes appeared herniated and in some cases disrupted, and small vesicles containing hydrolytic enzymes were seen in association with the Golgi apparatus and larger primary lysosomes. Specimens prepared for the demonstration of acid phosphatase indicated a redistribution of hydrolytic enzymes in Purkinje fibers with a depostion of acid hydrolases in smaller lysosomal vesicles, the transverse and side-to-side junctions between cells, and occasionally in the sarcoplasmic reticulum. Enriched perfusate containing high levels of glucose with insulin appeared to have no therapeutic effects in terms of the structure of the Purkinje fibers. The results suggest that alterations in the lysosomal system may be one of the earliest structural changes which occur in oxygen-deficient hearts.
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PMID:Ischemic injury to the conducting system of the heart. Involvement of myocardial lysosomes. 43 Oct 98

Acute ischemia was created by placing a tourniquet on the extremity or on a clamp on the kidney limb for a period corresponding to the critical metabolism level in the test tissue study. Restoration of circulation in the ischemic kidney led to the excessive accumulation of glucose high-molecular polymer of the glycogen type. The character of its branching in the molecule determined by the iodine complex spectrum pointed to the changes in the processes of glycogen biosynthesis. Lactate of the ischemic kidney could be used for the glycogenesis requirements. This anomalous glycogen was shown to be actively uptaken by the kidney tissue. Glycogen accumulation in the muscle tissue following acute ischemia failed to exceed the normal level, and its structure was unchanged.
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PMID:[Glycogen metabolism in ischemic organs]. 70 66

An in situ working swine heart preparation is described in which total coronary perfusion was controlled. At normal rates of coronary flow, oxygen, glucose, and fatty acid utilization were stable for at least a 60-min perfusion period. With a 50% reduction in coronary flow, oxygen and glucose consumption were reduced during 30 min of perfusion and fatty acid extraction was lower at the end of 30 min. Glycogen utilization was increased, but tissue levels of creatine phosphate, ATP, and lactate were similar to those in hearts receiving normal flow. With a 60% reduction in coronary flow, uptake of oxygen, glucose, and fatty acids were further decreased. Tissue levels of high-energy phosphates and glycogen were decreased and ADP, AMP, and lactate increased. Mechanical performance progressively deteriorated in these hearts, and ventricular fibrillation developed after about 20 min (19.8 plus or minus 3.0 min). The data indicate that this preparation is suitable for the study of myocardial metabolism during mild and severe ischemia and may be useful for the evaluation of pharmacological interventions designed for the treatment of myocardial ischemia.
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PMID:Metabolic responses to varying restrictions of coronary blood flow in swine. 111 86

A cerebral ischemia was produced by unilateral ligation of the common carotid artery in the neck of Mongolian gerbils (Meriones unguiculatus), which are frequently characterized by deficiencies in the circulus of Willis. Concentrations of glucose, lactate, pyruvate and glycogen were measured in the hemisphere on the side of occlusion and in the contralateral control hemisphere of animals sacrificed after 5, 15 and 30 min, as well as after 1,3,5 and 9 hrs of carotid clamping. Significant decrease of glucose, and increase in lactate and pyruvate concentration were found in the hemisphere ipsilateral to occlusion; the extent of the changes was proportional to the duration of the ischemia. After an initial fall, an increase in the glycogen content occurred in the later stages of ischemia. Glycogen, glucose, lactate and pyruvate were determined also at 1, 5, 20 hrs and 1 week intervals following release of an occlusion lasting for 1 hr. Return to normal values of glucose and pyruvate was seen at 1 hr after release. The lactate and glycogen levels were significantly raised on the occluded side after 20 hrs release. An increased level of glycogen was observed as long as 1 week after a 1-hr carotid occlusion.
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PMID:Experimental cerebral ischemia in Mongolian gerbils. II. Changes in carbohydrates. 120 98

Isolated working rat hearts were made ischemic for 5, 10, and 30 minutes respectively. After the ischemic period, all hearts were perfused in a retrograde nonworking way for 30 minutes. During the 5 first minutes of ischemia, there was a marked fall of cardiac output and coronary flow. A significant release of GOT was seen and this was more marked after longer periods of ischemia. Addition of adrenaline to the perfusate increased the enzyme release. Pacing at 400/minute, high preload, high afterload, acidosis, or alkalosis did not alter enzyme release. Glycogen, ATP and CrP levels were depressed at the end of the ischemic period, but were seen to be rising again during the retrograde perfusion. This study indicates that myocardial tissue may release enzymes without being irreversibly damaged.
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PMID:Myocardial enzyme release from ischemic isolated perfused working rat heart. 120 85

Bradykinin perfusion (BK 1 x 10(-12) to 1 x 10(-8) mol/l) of isolated working rat hearts with postischemic reperfusion arrhythmias induced a reduction of the incidence as well as duration of ventricular fibrillation, improvement of cardiodynamics via increased left ventricular pressure, contractility, and coronary flow without changes in heart rate. These beneficial effects were accompanied by reduced activities of the cytosolic enzymes lactate dehydrogenase and creatine kinase as well as lactate output. In the myocardial tissue lactate content was reduced and the energy rich phosphates increased compared to saline perfused control hearts. Glycogen stores were also preserved. These beneficial effects of BK were concentration-dependently abolished by perfusion of the B2 kinin receptor antagonist HOE 140 and the nitric oxide (NO) synthase inhibitor NG-nitro-L-arginine (L-NNA). These results suggest that improved cardiac function during and after myocardial ischemia as well as increased energy rich phophates and glycogen stores are mediated by BK and the subsequent release of NO, shifting myocardial metabolism during ischemia and reperfusion to the glucose pathway which leads to changes indicative for cardioprotection.
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PMID:Bradykinin-mediated metabolic effects in isolated perfused rat hearts. 146 41

Rapid ventricular pacing (RVP) is used as an experimental model of congestive heart failure (CHF). The purpose of this study was to determine the energy status of the dog myocardium after the development of CHF via chronic RVP. The myocardium had a significantly lower (P < 0.05) energy charge (EC) during CHF (0.63 +/- 0.01) than in sham-operated controls (0.82 +/- 0.02). This was due to significant differences in concentrations in ATP (-48%), ADP (29%), and AMP (275%) in the RVP group. However, the total adenine nucleotide pool was not different between groups. Myocardial lactate concentration was also similar. Glycogen was significantly lower (P < 0.05) by 20% at peak CHF. The adenine nucleotides were similar among the different myocardial layers (endo-, mid-, and epicardium). The administration of enalapril (an inhibitor of angiotension-converting enzyme) to decrease vascular resistance had no effect on the myocardial energy status of CHF dogs. These findings suggest that the lower EC in CHF animals is not the result of subendocardial ischemia. Also, lower EC is not associated with endogenous glycogen depletion or increased lactate concentration. The energy status of the myocardium in RVP-induced CHF is unlike that seen in ischemia-induced heart failure. This suggests that CHF in RVP is not vascular in origin.
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PMID:Energy status of the rapidly paced canine myocardium in congestive heart failure. 149 Sep 44

The effects of ischemia in vitro for 0-60 min at 37 degrees C on glycogen phosphorylase activity in rat liver have been studied under different feeding conditions. Glycogen phosphorylase activity was demonstrated with a recently developed quantitative histochemical method using a semipermeable membrane and the PAS-reaction. The cytophotometrically measured glycogen phosphorylase activity in livers from 24 h-fasted rats was approximately five times the activity in livers from normally fed rats. The activity in periportal areas was about 1.5 times higher than the activity in pericentral areas in livers from starved rats, but more or less evenly distributed in livers from fed rats. Enzyme activity in pericentral areas of livers from 24 h-fasted rats started to decrease after 20 min of ischemia. After 50-60 min of ischemia, the activity was decreased to approximately 25% of the control activity. Livers from normally fed rats showed unchanged activity in periportal and pericentral areas after 10-60 min of ischemia. It has been assumed that the activation of the enzyme was disturbed by ischemia, possibly as a consequence of plasma membrane damage.
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PMID:The effect of ischemia on glycogen phosphorylase activity in rat liver: a quantitative histochemical study. 227 81

Mammalian brain glycogen is adequate to support oxidative metabolism for several minutes. The present studies were done primarily to develop the guinea pig hippocampal slice as a model for studying the function and regulation of that glycogen. Slice glycogen falls to 6 nmol/mg dry wt. during the first hour of incubation at 36 degrees C but during the next 3 h recovers to 20 nmol/mg dry wt., similar to in situ values. Glycogen concentration in the dentate gyrus molecular layer is double its value in the whole hippocampal slice, suggesting its distribution is related to metabolic demand. When both glucose and oxygen are removed from the medium, glycogen and ATP fall to 50% within 6 min. The glycogen fall is unaffected by prolonged calcium depletion or by 3-isobutyl 1-methylxanthine, an adenosine antagonist. It is markedly slowed by preincubating the slice with creatine, which also slows the fall in ATP. It is concluded that ATP breakdown and subsequent increased 5'-AMP is activating glycogen mobilization in this in vitro model of ischemia.
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PMID:Regulation of glycogen in the dentate gyrus of the in vitro guinea pig hippocampus; effect of combined deprivation of glucose and oxygen. 247 Oct 20


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