UMLS:C0022116 - FACTA Search

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

In isolated perfused rabbit hearts, coronary vasodilation, produced by reduced oxygen tension seems to be independent of myocardial prostaglandin biosynthesis. a) Anoxia (N2: CO2 95: 5 %) produced coronary vasodilation without causing prostaglandin-like substance (PLS) biosynthesis and release; b) the decrease in coronary resistance during hypoxia (N2:02:CO2 - 80:15:5 %) was sustained during myocardial perfusion with the low oxygen media despite the transitory nature of its PLS release; and c) indomathacin, which abolished basal or ADP stimulated myocardial PLS release, did not abolish the coronary vasodilation produced by ischemia, hypoxia, or anoxia.
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PMID:Relationship between oxygen tension, coronary vasodilation and prostaglandin biosynthesis in the isolated rabbit heart. 113 23

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.
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PMID:Metabolic and structural recovery of left ventricular canine myocardium from regional complete ischemia. 115 19

Adenosine diphosphate (8 mg per minute for five minutes) was infused into the carotid artery of 63 rabbits. The effects were twofold: systemic hypotension and platelet aggregation in the cerebral circulation. As a consequence of the last effect, platelet emboli were produced which occluded cerebral arteries in a number and size sufficient to cause cerebral ischemia. Areas of focal ischemia were observed through a cranial window, and documented with antipyrine autoradiography. Platelet thrombi were almost entirely transient, being fragmented and removed within a very short time of cessation of ADP infusion. Consequently, no permanent tissue damage ensued. This experimental model approaches the spontaneous transient ischemia attacks (TIAs) in man, demonstrating that these can be caused by pure platelet emboli. A high cholesterol diet administered for two months prior to ADP infusion did not enhance the effect of the procedure or make the platelet aggregation and the following ischemia longer in duration or more severe.
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PMID:Animal model of TIA: an experimental study with intracarotid ADP infusion in rabbits. 119 26

This study examines indices of respiratory function in mitochondria prepared from transiently ischemic myocardium that had been reperfused in order to evaluate the validity of performing early surgical revascularization procedures. Experiments were performed in pigs with temporary ligation (15-80 min) of an anterior descending coronary artery followed by a 2-hr reperfusion period. Mitochondria preparations were studied simultaneously from normal and reperfused mitochondria in malate and glutamate substrates using the polarographic method. Results revealed a marked decrease of oxygen consumption of mitochondria from reperfused myocardium with relative preservation of oxidative phosphorylation (near normal ADP/O ratio). These results are compatible with a block in electron transport, a theory which was further supported by the data obtained using dinitrophenol as an uncoupler. Additional studies suggested the block was located at site I in the electron transport chain since mitochondrial oxygen consumption, including ATP-linked oxygen consumption, was enhanced by the use of succinate in combination with glutamate. The abnormal mitochondrial function observed is probably due to ischemia persisting despite reperfusion.
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PMID:Impairment of mitochondrial function following reperfusion of acutely ischemic myocardium. 121 42

To determine the role of platelet-activating factor (1-O-hexa-decyl-2-acetyl-sn-glyceryl-phosphoryl-choline, PAF) in myocardial ischemic and reperfusion-induced injury, the effects of a PAF receptor antagonist (WEB 2086) were studied in an anesthetized canine model of ischemia (90 min) and reperfusion (6 h). Thirty minutes after onset of ischemia, WEB 2086 was administered as a bolus (20 mg/kg intravenously, i.v.) followed by a continuous 6-h infusion (10 mg/kg/h i.v.). Controls received vehicle alone (0.9% saline). Platelet aggregation was studied at baseline and at 1, 2, 4, and 6 h of drug administration and at the end of the reperfusion period. WEB 2086 treatment did not significantly affect platelet aggregation stimulated by ADP or arachidonic acid (AA). After 1 h of drug infusion, the ex vivo aggregatory response to exogenous (200 nM) PAF was ablated in WEB 2086-treated animals. WEB 2086 administration did not affect heart rate (HR) or mean arterial blood pressure (MAP) during the occlusion or reperfusion phases. During reperfusion of the ischemic tissue, left circumflex coronary artery (LCX) blood flow of WEB 2086-treated animals increased (p < 0.05) above control value. The area of the left ventricle at risk of infarct was not different between control and WEB 2086-treated groups. Infarct size was not significantly reduced in WEB 2086-treated animals. The results of our investigation using a 90-min ischemic period followed by 6-h reperfusion show that pharmacologic antagonism of PAF by WEB 2086 does not protect the heart against ischemia and reperfusion-induced injury.
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PMID:Inhibition of platelet-activating factor fails to limit ischemia and reperfusion-induced myocardial damage. 128 5

This article attempts correlating changes in cellular energy metabolism, acid-base alterations, and ion homeostasis in ischemia and other conditions. It is emphasized that loss of ion homeostasis, with thermodynamically downhill fluxes of K+, Ca2+, Na+, Cl-, and H+, occurs because energy production fails and (or) ion conductances are increased. In ischemia, energy failure is the leading event but, in hypoglycemia, activation of ion conductances is what precipitates energy failure. The initial event is a rise in K+ e, at least in part caused by activation of K+ conductances modulated by Ca2+ or ATP/ADP ratio. Secondarily, this leads to release of excitatory amino acids and massive activation of unspecific cation (and anion) conductances. Production of H+ occurs in states characterized by energy failure (ischemia and hypoxia) or by alkalosis (hypocapnia and ammonia accumulation). H+ equilibrates between intra- and extra-cellular fluid via nonionic diffusion of lactic acid, and transmembrane fluxes of H+ or HCO3- via ion channels. Since the relationship between lactate and either pHi or pHe is linear, there are no abrupt pH shifts explaining why hyperglycemia worsens ischemic damage. The reversible insults seem to induce a sustained stimulation of H+ extrusion from cells giving rise to intracellular alkalosis and extracellular acidosis.
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PMID:Coupling among changes in energy metabolism, acid-base homeostasis, and ion fluxes in ischemia. 128 29

Physiological parameters, rates of mitochondrial respiration, high energy phosphate levels and creatine phosphokinase (CPK) activity were investigated in the hearts from control and alloxan-induced diabetic rabbits before and after 40-min total ischemia and reperfusion. Diabetic hearts demonstrated significant decreases in the rates of contraction (+dP/dt) and relaxation (-dP/dt), heart rates and cardiac work compared to control hearts. Determination of mitochondrial respiration rates in saponin-skinned fibers showed a low mitochondrial respiratory function in diabetic hearts. It was found that the ATP and ADP levels and the total and mitochondrial isoenzyme activities of CPK in diabetic hearts were lowered in comparison with control. A post-ischemic recovery of cardiac performance for diabetic hearts was better than in controls. After reperfusion diabetic hearts had increased ATP levels. The data obtained demonstrate some abnormalities of both cardiac performance and energy metabolism in the hearts of diabetic animals and a decreased sensitivity of the latter to ischemic injury.
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PMID:[Energy metabolism and contractile function of the heart in diabetic cardiomyopathy: effect of ischemia and reperfusion]. 129 59

Myocardial ischemia and reperfusion cause coronary vascular injury involving both the large epicardial arteries and the microcirculation. Although the mechanisms are unclear, leukocytes appear to play an important role. Since the methylxanthine derivative pentoxifylline (PTX) decreases neutrophil activity in vitro, we hypothesized that it might diminish coronary vascular injury due to ischemia and reperfusion. We investigated the effects of PTX on coronary microvascular and epicardial artery injury in open chest, anesthetized dogs undergoing moderate (60 min) or more prolonged (90 min) ischemia due to left anterior descending coronary artery occlusion followed by 60 min of reperfusion. As an index of microvascular injury, we assessed regional permeability with a dual radioisotope protein leak index (PLI) method. Both ischemic periods with reperfusion increased the PLI of severely ischemic (flow less than or equal to 20/ml/min/100 g) myocardium by 2.5- and 3-fold, respectively, compared to nonischemic (flow greater than or equal to 100 ml/min/100 g) myocardium. Treated dogs received PTX (20 mg/kg bolus plus 0.1 mg/kg/min infusion) before ischemia. PTX reduced the increase in the PLI by 40% after 60 min of ischemia (PLI = 5.87 +/- 0.48 vs. 4.10 +/- 0.52 untreated vs. PTX-treated; P less than .05), and by 25% after 90 min of ischemia (6.84 +/- 0.49 vs. 4.84 +/- 0.42; P less than .05). The amount of protein leak was inversely related to ischemic blood flow, and the magnitude of this relationship was significantly reduced in PTX-treated animals. In arterial rings from untreated dogs exposed to 90 min of ischemia followed by reperfusion, there was impaired relaxation to ADP and acetylcholine, but not to sodium nitroprusside.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Coronary vascular injury due to ischemia-reperfusion is reduced by pentoxifylline. 131 65

We studied the mechanisms underlying the increase in automaticity induced by alpha 1-adrenergic stimulation of normal and "ischemic" canine Purkinje fibers. Fibers were superfused with a control Tyrode's solution, followed by an ischemic superfusate that included 10 mM KCl, 5 mM NaHCO3, Po2 of 10-25 mm Hg, and pH 6.7. To exclude beta-adrenergic actions, propranolol was added to all solutions. In the presence of phenylephrine, normal automaticity at high membrane potentials usually decreased, whereas the incidence of abnormal automaticity during ischemia was increased from a control value of 10% to 30%. Block of an alpha 1-receptor subtype with chloroethylclonidine in the presence of phenylephrine caused normal automaticity to increase in all fibers studied and significantly increased abnormal automaticity to 70%. The alpha-adrenergic-induced increase in automaticity did not occur in ischemic fibers from animals pretreated with pertussis toxin (PTX), which ADP-ribosylated and functionally inactivated the 41-kd family of GTP regulatory proteins. In contrast, the use of PTX enhanced the increase in automaticity induced by phenylephrine in normally polarized Purkinje fibers. Ryanodine, which blocks sarcoplasmic reticulum Ca2+ release, attenuated the increase in normal automaticity in nonischemic fibers but had no effect on abnormal automaticity in ischemic fibers. The increase in abnormal automaticity was, however, blocked by the alpha 1 subtype blocker WB 4101, which also blocks the increase in automaticity in normal fibers. In conclusion, the increase in abnormal automaticity in ischemic Purkinje fibers depends on a WB 4101-sensitive alpha 1-adrenergic receptor subtype whose actions are transduced by a PTX-sensitive 41-kd G protein and are not blocked by ryanodine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Positive chronotropic responses induced by alpha 1-adrenergic stimulation of normal and "ischemic" Purkinje fibers have different receptor-effector coupling mechanisms. 132 30

In order to determine the role of fructose (Fru) 2,6-P2 in stimulation of phosphofructokinase in ischemic liver, tissue contents of Fru-2,6-P2, hexose-Ps, adenine nucleotides, and Fru-6-P,2-kinase:Fru-2,6-bisphosphatase were investigated during the first few minutes of ischemia. The Fru-2,6-P2 concentration in the liver changed in an oscillatory manner. Within 7 s after the initiation of ischemia, Fru-2,6-P2 increased from 6 to 21 nmol/g liver and decreased to 5 nmol/g liver within 30 s. Subsequently, it reached the maximum value at 50, 80, and 100 s and decreased to the basal concentration at 60, 90, and 120 s. Oscillatory patterns were also observed with Glc-6-P and Fru-6-P, but the ATP/ADP ratio decreased monotonically. Determination of Fru-6-P,2-kinase activity and the phosphorylation states of Fru-6-P,2-kinase:Fru-2,6-bisphosphatase demonstrated that at 7 and 50 s, where Fru-2,6-P2 was the highest, the enzyme was activated and mostly in a dephosphorylated form. On the other hand, at 0, 30, and 300 s, the enzyme was predominantly in the phosphorylated form. The concentration of cAMP in the liver also changed in an oscillatory manner between 0.5 to 1.3 nmol/g with varying frequency of 10 to 40 s. These results indicated that: (a) Fru-2,6-P2 was important in rapid activation of phosphofructokinase in the first few seconds and up to 2-3 min, and (b) the oscillation of Fru-2,6-P2 concentration was the result of activation and inhibition of Fru-6-P,2-kinase:Fru-2,6-bisphosphatase, which was caused by changes in the phosphorylation state of the enzyme.
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PMID:Oscillation in fructose 2,6-bisphosphate levels and in the phosphorylation states of fructose 6-phosphate,2-kinase:fructose-2,6-bisphosphatase in ischemic rat liver. 132 12

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