UMLS:C0022116 - FACTA Search

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

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

In the atrioventricular system (AVS) consisting of the compact node, the penetrating bundle and the branching bundles of about 250 bovine hearts there were made several studies: 1. In quickly removed and fixed specimens (distal AV-node, penetrating bundle) determination of a metabolic state with respect to glycogen, glucose, lactate, ATP, ADP, AMP, creatinephosphate, total creatine, gluc-6-phosphate, fructose-6-phosphate, fructose-1,6-diphosphate, dihydroxyacetonphosphate and pyruvate. 2. Determination of glycogen contents and glygolytic activity in AVS and its parts for ischemic times up to three hours. 3. The determination of metabolic contents in samples of connective tissue in atrium and ventricle of bovine hearts. The AV-nodes are poor in glycogen comparable with glycogen content of central nervous system and other ganglia. Penetrating bundles of Hiss and branching bundle belong after liver to the glycogen richest parenchyma of animal tissues. Even after ischemia of 3 h only a part of glycogen was recovered as lactate. The greater part of glycogen must be considered as a structural element of Hiss bundle and branching bundles of the ventricles.
...
PMID:[Contents of glycogen, glycolytic activity and contents of metabolites in the atrioventricular system of bovine hearts (author's transl)]. 73 46

The behaviour of fuels (glycogen, glucose), of glycolytic pathway intermediates (glucose-6-phosphate, pyruvate) and end-product (lactate), as well as the pool of labile phosphates (ATP, ADP, AMP, creatine phosphate) and the energy charge of the brain were studied in the motor area of the cerebral cortex of beagle dogs. These parameters were evaluated both after various hypoxic conditions (hypoxic hypoxia, hypoxia plus complete or incomplete ischemia) and after 3, 15 or 30 min of post-hypoxic recovery and recirculation. The effect of some drugs (papaverine, UDP-glucose, (-)eburnamonine, suloctidil) following intracarotid perfusion has been evaluated in the various quoted experimental conditions. The tested drugs proved unable to improve the deranged brain metabolism under all the hypoxic conditions. On the contrary, an activating effect of suloctidil and (-)eburnamonine could be observed during the recovery after both hypoxia and hypoxia plus complete ischemia, papaverine being ineffective and UDP-glucose increasing the glycogen synthesis. The drugs proved unable to induce a restitution of the altered brain metabolism after hypoxia plus incomplete ischemia.
...
PMID:Drug action on cerebral energy state during and after various hypoxic conditions. 74 71

Insertion of a flow pump into the Langendorff retrograde perfusion apparatus has permitted the production of stable, graded ischemia in hearts whose hemodynamic and metabolic response may be evaluated. Ventricular pressures were monitored with a modified balloon and catheter-tip manometer system, and oxygen consumption , lactate and glucose metabolism, and tissue high-energy phosphate stores measured. A 15-min stabilization period in 56 paced hearts was followed by 15 min of either full, 40, 30, 20, or 10% coronary flow, after which the ventricular tissue was freeze-clamped for tissue assay. Tissue creatine phosphate fell progressively from 23.7 in full flow hearts to 9.9 mumol/g dry wt after 90% reduction in flow. This was accompanied by a graded reduction in ATP from 20.3 to 14.0 mumol/g dry wt and a rise in AMP from 1.1 to 2.6 mumol/g dry wt. Tissue lactate rose progressively from 22.3 to 60.1 mumol/g dry wt. Hemodynamic function correlated with coronary flow. This preparation offers an opportunity to study pharmacological and metabolic interventions in ischemic heart disease.
...
PMID:A model of graded ischemia in the isolated perfused rat heart. 93 18

The perfused rat heart was used to assess the possible contribution of glycolytically produced ATP to the maintenance of the action potential in the normoxic heart, and to the maintenance of membrane integrity in the underperfused, ischemic heart. During normoxia, pyruvate (10 mM) was nearly as able as glucose (10 mM) to maintain the normal action potential. During ischemia (reduction of perfusion pressure of Langerdorff heart from 100 to 20 cm H2O), total tissue values of ATP and creatine phosphate were similar in pyruvate and in glucose hearts. However, pyruvate-perfused hearts had higher tissue levels of cyclic AMP during the ischemic period, and during the reperfusion period they had an increased release of lactate dehydrogenase and an increased incidence of arrhythmias when compared with glucose hearts. It is proposed that these differences can be related to a higher rate of production of glycolytic ATP. The anatomical, biochemical, and pharmacological evidence favoring a cytoplasmic compartment of ATP located in relation to the cell membrane is reviewed.
...
PMID:Glycolytic ATP and its production during ischemia in isolated Langendorff-perfused rat hearts. 103 48

The tolerance of ischemia in normal and less perfused myocard during an ischemic and cardioplegic heart standstill was investigated. A decrease of ATP and ADP and an increase of the lactate, pyruvate and AMP was established during an ischemia of 20 minutes. The less perfused hearts gave considerably worse results regarding the energy transformation than normal hearts. In less perfused hearts the energy reserve of myocardial metabolism showed a considerably better behaviour during a cardioplegic heart standstill of 45 minutes than an ischemic one of 20 minutes. During the recuperation period this trend was emphasised.
...
PMID:[The effect of ischemic and cardioplegic heart standstill on the myocard metabolism in normal and less perfused heart (author's transl)]. 108 Jun 11

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.
...
PMID:Metabolic responses to varying restrictions of coronary blood flow in swine. 111 86

Canine hindlimb muscles were perfused with arterial blood from a donor at a constant pressure or at a constant flow rate. Blood samples were analyzed for adenosine, oxygen and potassium during load-free twitch contractions (2 cps) and/or after 3-min ischemia. (1) During exercise hyperemia A-V oxygen (p smaller than 0.001) and V-A potassium (p smaller than 0.001) differences increased in both perfusion systems. Under the constant pressure total amount of adenosine and/or AMP released (TAAR) remained constant at 34.4 plus or minus 7.8 (mean plus or minus S.D.) nmoles/ml of blood compared with 31.0 plus or minus 5.6 at rest, whereas under the constant flow rate the value increased from 32.8 plus or minus 9.4 to 74.6 plus or minus 15.7 (p smaller than 0.001). (2) In reactive hyperemia A-V difference of oxygen increased (p smaller than 0.001) and TAAR remained at 33.0 plus or minus 8.3 under the constant pressure. Under the constant flow rate TAAR increased from 32.8 plus or minus 9.4 to 48.1 plus or minus 12.6 (p smaller than 0.001). (3) After ischemic contractions TAAR remained constant under the constant pressure perfusion. Under the constant flow rate, however, TAAR showed definite decrease compared with that during exercise hyperemia with intact flow (p smaller than 0.001). (4) The authors think that adenosine and/or AMP is the mediator of exercise hyperemia, supported by potassium ions and local hypoxia. Adenosine and/or AMP, and local hypoxia are responsible for reactive hyperemia. In ischemic contractions, no special circulatory mediator was found.
...
PMID:Role of adenosine or AMP as a probable mediator of blood flow regulation in canine hindlimb muscles. 112 66

The capacity for recovery of the normothermic left ventricular myocardium from a regional complete ischemia (RCI) was investigated using changes in the myocardial metabolic status (ATP, ADP, AMP, creatine phosphate (CrP), free creatine, glycogen, glucose, lactate) and alterations of the morphology as parameters. In dogs, an area of the anterior wall of the left ventricular myocardium was temporarily deprived completely of its blood supply by 5--7 overlapping ligatures extending into the heart cavity. The metabolites of the adenylic acid-CrP system returned to normal tissue levels after 30 and 60 min of RCI within 14 and 35 days of recovery, respectively; restoration averaged 82% after 100 min, 74% after 140 min, and 38% after 180 min of RCI after 5 weeks of recovery. At the same time glycogen amounted to 163% after 100 min, 114% min, and 65% after 180 min of RCI. The biochemical data correlated well with the structural changes in the affected myocardium, especially with the amount of de- and regenerating heart muscle cells. These obviously were functionally defect and were not comparable with normal structured and functioning heart muscle cells.
...
PMID:Metabolic and structural recovery of left ventricular canine myocardium from regional complete ischemia. 115 19

The effect of ischemia on synthesis of myocardial proteins was investigated using a model of perfusion in which low levels of coronary flow were provided to paced hearts worked against a closed aortic outflow tract. These conditions rapidly produced ischemia and ventricular failure, as evidence by reduced coronary flow, increased left atrial pressure, and decreased pressure development. Protein synthesis was inhibited in a subsequent 1-hour period, during which a minimal coronary flow was maintained by retrograde perfusion. ATP, GTP, and creatinine phosphate were depleted in ischemic hearts and AMP accumulated. Production and accumulation of lactate within the tissue increased, whereas palmitate uptake was inhibited. The inhibition of protein synthesis was not associated with reduced levels of intracellular amino acids. During ischemia, decreased levels of ribosomal subunits as compared to paced or unpaced aerobic hearts suggested that peptide chain elongation was slow relative to initiation. Provision of insulin further reduced subunit levels but did not increase protein synthesis, suggesting that the hormone did not prevent inhibition of peptide chain elongation in energy-poor hearts.
...
PMID:Effects of anoxia and ischemia on protein synthesis in perfused rat hearts. 126 87

Forebrain ischemia in gerbils, produced by brief bilateral carotid occlusion, induced the dramatic loss of Ca2+/calmodulin-dependent protein kinase II (CaM-kinase II) as determined by both kinase activity assays and western blot analysis. In cortex and hippocampus, cytosolic CaM-kinase II was completely lost within 2-5 min of ischemia. Particulate CaM-kinase II was more stable and decreased in level approximately 40% after 10 min of ischemia followed by 2 h of reperfusion. CaM-kinase II in cerebellum, which does not become ischemic, was not affected. The rapid loss of CaM-kinase II within 2-5 min was quite specific because cytosolic cyclic AMP kinase and protein kinase C in hippocampus were not affected. These data indicate that cytosolic CaM-kinase II is one of the most rapidly degraded proteins after brief ischemia. Because the multifunctional CaM-kinase II has been implicated in the regulation of numerous neuronal functions, its loss may destine the neuronal cell for death.
...
PMID:Ischemia-induced loss of brain calcium/calmodulin-dependent protein kinase II. 131 Jul 19

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>