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)

Physiologic concepts relating to reperfusion of ischemic areas of myocardium may be applied both to acute coronary insuficiency, manifested by angina pectoris, and to restoration of coronary blood flow by coronary bypass procedures, currently employed both in acute myocardial infarction and in chronic myocardial ischemia for relief of angina pectoris. Of the information currently available from experimental studies, much may be applicable to the clinical situation. After acutr transient coronary occlusion mechanical and electrical properties of the ischemic area rapidly return to normal, but there is prolongation of tension development and occurrence of ventricular arrhythmias; implications of these phenomena for clinical coronary ischemia deserve exploration. Following more prolonged coronary ischemia, results of experimental reperfusion appear to be variable and, although restoration of function following several hours of ischemia is possible, certain deleterious effects are often observed in the form of myocardial edema and hemorrhage. Clinical use of bypass procedures in acute myocardial infarction suggests that results may be good, but that deleterious effects are occasionally observed; occurrence of the later requires definition and explanation. Restoration of myocardial blood flow in the presence of normal left ventricular function in chronic coronary artery disease, and failure to reverse functional abnormalities when left ventricular damage has already ensued in the clinical situation, appears to be well established; however, better methods to assess the potential for recovery of function following revascularization are needed in both acute and chronic coronary artery diseases. It is anticipated that more careful exploration of pathophysiology both in the catheterization laboratory and in the operating room may aid this process.
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PMID:Effect of reperfusion in acute ischemia and infarction. 115 38

Adult rhesus monkeys were subjected to complete cerebral ischemia for one hour and subsequent recirculation for up to 24 h. Animals with signs of functional recovery (e.g. spontaneous EEG activity) exhibited a partial replenishment of cellular energy sources (ATP, phosphocreatine) and a progressive normalization of cerebral lactate levels. Glucose and pyruvate concentrations showed a transient increase over control values during the early stages of postischemic recirculation. Monkeys without functional recovery lacked a significant resynthesis of energy-rich compounds; adenine nucleotides continued to decrease and lactate concentrations were higher than in animals subjected to ischemia without recirculation. Cerebral polysome profiles remained unaltered during the ischemic period but in all animals a marked disaggregation of polyribosomes with a concomitant increase in ribosomal subunits occurred after the onset of recirculation. In monkeys with indications of functional recovery these changes were reversible but a normal polysome profile was only observed after 24 h of recirculation. The results obtained indicate a postischemic depression of protein synthesis due to an inhibition of peptide chain initiation. After recirculation of the brain for 3-6 h there was evidence for an induction of enzymes involved in polyamine synthesis (ornithine decarboxylase and S-adenosylmethionine decarboxylase). No changes in the activity of these enzymes were observed at the end of the ischemic period, indicating that during complete cerebral ischemia not only the synthesis but also the catabolism of proteins is inhibited.
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PMID:Resuscitation of the monkey brain after one hour complete ischemia. III. Indications of metabolic recovery. 115 69

Isolated perfused working rat hearts were subjected to elective cardiac arrest for 20 or 30 min. Various methods of arrest were studied, either singly or in combination and with or without coronary perfusion. The functional recovery of the heart following the termination of arrest was found to be related to the concentration of ATP and creatine phosphate in the myocardium at the end of the period of arrest. In turn, these concentrations were dependent upon the method used to induce arrest. Normothermic ischemic arrest led to a marked reduction in high energy phosphates and a poor functional recovery. In contrast, coronary perfusion with hypothermic solutions or solutions containing high concentrations of potassium, induced arrest without depleting ATP or creatine phosphate. These procedures conferred considerable protection on the myocardium and thus permitted good recoveries. The energy status and recovery associated with ischemic arrest could be improved by combining the ischemia with hypothermia or potassium arrest. The latter, while increasing recovery significantly, still failed to afford complete protection to the myocardium. Potassium chloride gave greater protection than potassium citrate. When topical hypothermia was combined with ischemia, a time and temperature relationship was demonstrated but effective protection could only be obtained with severe topical hypothermia over a relatively short time period. The results stress the importance of maintaining high energy phosphates during arrest, and this requires the provision of a continuous supply of oxygen and nutrient, which may perhaps be best achieved by ensuring continuous and adequate coronary perfusion.
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PMID:Ischemic damage and metabolism during elective cardiac arrest. 120 80

Anoxic perfusion prior to sustained ischemia (anoxic preperfusion), reportedly improves postischemic functional recovery of the heart, but its mechanism has not been well understood. The present study aimed to characterize the cardioprotective effects of anoxic preperfusion and its relationship to extracellular Ca++ levels. Following 10 min of aerobic perfusion, isolated rat hearts were assigned to a 10 min aerobic perfusion or to a 10 min anoxic perfusion. The hearts were then subjected to 30 min of global ischemia and 30 min of aerobic reperfusion. When the perfusate-free Ca++ concentration was 2.0 mM, postischemic recovery of left ventricular developed pressure was significantly improved by anoxic preperfusion (91.9 +/- 2.9% of baseline value vs. 50.5 +/- 12.9% after 30 min reperfusion in the controls). However, the improvement of postischemic ventricular function by anoxic preperfusion was abolished when perfusate Ca++ was reduced to 1.0 mM and the contractile function was rather suppressed during early reperfusion by anoxic preperfusion when the Ca++ level was 0.7 mM (87.5 +/- 11.8% vs. 115.6 +/- 13.9% after 10 min of reperfusion). On the other hand, lactate accumulation during the global ischemia was significantly less in anoxic preperfused hearts compared with untreated hearts both when perfusate Ca++ was 0.7 mM (61.3 +/- 5.1 vs. 85.9 +/- 6.8 mumol/g dry) and when it was 2.0 mM (43.8 +/- 2.0 vs. 140.3 +/- 14.1 mumol/g dry). The amount of myoglobin released after global ischemia was not different between untreated and anoxic preperfused hearts regardless of the perfusate Ca++ level. The results suggest that anoxic preperfusion does not reduce ischemic myocardial necrosis, but it attenuates myocardial stunning. That effect of anoxic preperfusion on the stunning is dependent on the extracellular Ca++ level and is not totally explained by suppression of ischemia-induced lactate accumulation.
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PMID:Effect of anoxic preperfusion on ischemic myocardial injury in isolated rat hearts. 128 98

To elucidate the pathophysiological role of the hydroxyl radical (.OH) during the postischemic reperfusion of the heart, we measured the .OH product in the coronary effluent from isolated perfused rat heart during a 30-minute reperfusion period after various ischemic intervals of 5, 10, 15, 20, 30, and 60 minutes. Salicylic acid was used as the probe for .OH, and its derivative, 2,5-dihydroxybenzoic acid (2,5-DHBA), was quantified using high-performance liquid chromatography with ultraviolet detection. 2,5-DHBA was negligible in the effluent from nonischemic hearts, but a significant amount was detected from the hearts rendered ischemic for 10 minutes or longer. The peak of 2,5-DHBA was seen within 90 seconds after the onset of reperfusion in every group. The accumulated amount of 2,5-DHBA was maximal in the group with 15-minute ischemia (6.73 +/- 1.04 nmol/g wet heart wt after 30 minutes of reperfusion); it decreased as the ischemic time was prolonged and was 2.38 +/- 0.84 nmol/g wet wt after 30 minutes of reperfusion in the group with 60-minute ischemia. In the model of 15-minute ischemia/30-minute reperfusion, there was no correlation between the accumulated amount of 2,5-DHBA and functional recovery (+/- dP/dt, heart rate, and coronary flow), lactate dehydrogenase release, and morphological damage. Although treatment with 0.5 mM deferoxamine, an iron chelator, significantly decreased 2,5-DHBA (from 6.73 +/- 1.04 to 2.29 +/- 0.80 nmol/g wet wt after 30 minutes of reperfusion, p less than 0.01), it failed to reduce the postischemic myocardial injury in the group with 15-minute ischemia. The results suggest that .OH production is influenced by the preceding ischemic interval and that .OH does not exert an immediate direct effect on postischemic damage during early reperfusion in the isolated perfused rat heart, although a possibility remains that the small portion of .OH trapped by salicylic acid may not be intimately associated with myocardial injury.
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PMID:Quantification of hydroxyl radical and its lack of relevance to myocardial injury during early reperfusion after graded ischemia in rat hearts. 131 98

Proton nuclear magnetic resonance spectroscopy is a noninvasive technique allowing the localized, in vivo detection of proton-containing brain metabolites. We used this technique to study eight patients with cerebral infarction or ischemia. A stimulated echo-pulse sequence with chemical shift imaging was used to acquire spectra from multiple contiguous 4-cc volumes extending from the site of ischemia to the opposite hemisphere. Six patients had a reduction in the signal from N-acetyl groups (NAG) in the stroke area compared with controls, and those with the lowest NAG to phosphocreatine/creatine ratios had the least recovery of function. Lactate was observed within the infarcted region in two patients at 9 and 11 days after infarction and may have been present in other patients up to 15 weeks after stroke.
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PMID:Multivoxel 1H-MRS of stroke. 132 Feb 20

Severity of renal injury and recovery of function in acute renal failure (ARF) are strongly related not only to the magnitude and nature of ARF insult but also to numerous factors in the host which govern renal susceptibility to the insult and repair of renal lesion. Prior ARF affords resistance to a rechallenge with the same or different ARF insult. The mechanisms for this acquired resistance to ARF have not been well established, but suggested mechanisms include (a) increased resistance of regenerated tubular epithelial cells to a rechallenge, (b) glomerular refractoriness to vasoactive substances, (c) failure of damaged kidney to concentrate the toxic substance, (d) enhanced antioxidant enzyme activity in glomeruli, and (e) increased Na(+)-K(+)-ATPase activity in regenerated tubular epithelial cells. Controversy still exists regarding roles of these factors in the resistance to renal failure. Functional and morphologic recovery of postischemic kidney is enhanced by antecedent unilateral nephrectomy but delayed in the presence of the contralateral kidney. The mechanisms for the effect of uninephrectomy remain unsettled. Recent studies suggest contributions of changes in preglomerular vascular resistance; alterations in the environment which follow ischemia to all functioning excretory renal tissues; and altered production and release of vasoactive substances such as angiotensin, endothelin, thromboxane, and atrial natriuretic peptide.
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PMID:Factors affecting severity of renal injury and recovery of function in acute renal failure. 132 11

Calcium overload during reperfusion after prolonged ischemia has been associated with the Na(+)-Ca2+ exchange system. It has been proposed that the promotion of Na(+)-Ca2+ exchange at reperfusion may be mediated by Na(+)-H+ exchange. To evaluate whether this hypothesis is applicable for stunned myocardium, we examined the influence of temporary suppression of Na(+)-H+ and/or Na(+)-Ca2+ exchange during early reperfusion in isolated rat hearts. Myocardial stunning was produced by global ischemia for 15 min at 37 degrees C. The initial reperfusate was given during the subsequent 10 min after ischemia, and followed by reperfusion with normal Krebs-Henseleit buffer solution for 40 min. Hemodynamic indices, creatine kinase in coronary effluent, and myocardial water content were measured during reperfusion. The functional recovery of stunned myocardium was improved with higher extracellular Na+ concentration and/or lower Ca2+ concentration of the initial reperfusate. Aortic flow recovery of group II (135 mM Na(+)-0.5 mM Ca2+) was 77.0 +/- 3.4%, which was substantially greater (P < 0.05) than that of other groups: group I (control, 135 mM Na(+)-1.5 mM Ca2+), 68.2 +/- 2.4%; group III (25 mM Na(+)-0.5 mM Ca2+), 48.7 +/- 2.9%; group IV (25 mM Na(+)-1.5 mM Ca2+), 21.6 +/- 1.5%. Administration of amiloride, an inhibitor of Na(+)-H+ exchange, in the initial reperfusate ameliorates cardiac damage and improved aortic flow recovery in a dose-dependent manner (10(-6) M, 70.1 +/- 3.7%; 10(-5) M, 77.3 +/- 1.7%; 10(-4) M, 82.0 +/- 2.1% vs control 68.2 +/- 2.4%).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Possible involvement of Na(+)-H+ exchange in the early phase of reperfusion in myocardial stunning. 133 12

With the development of microsurgery, replantation surgery have become the method of choice in treating the digit amputations. Although better than 90% of successful rate can be achieved in replanting guillotine type amputation, the final functional recovery is the main goal. The indications include: (1) thumb amputations, (2) Zone I amputation, (3) multiple digits, (4) bilateral amputation, (5) hemi-hand amputations, (6) hand amputation at wrist to upper forearm, and (7) pediatric amputations. And the contraindications include: (1) life-threatening associated injuries, (2) technically impossible, and (3) self-inflicted injuries. As for condition which have been previously put in the contraindication categories, such as: (1) single finger amputation, (2) Zone II amputations, (3) severe crush or avulsion injuries, (4) geriatric amputations, and (5) lengthy ischemia time amputations, the decision of to replant or not to replant was not a straight forward one. The decisions are individualized to meet the needs of different patients.
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PMID:[Indications and contraindications of digital replantation]. 136 8

Thirty-three canine hearts were isolated after initial cardioplegia and preserved for 6 hours in 4 degrees C saline solution with intermittent infusion of cardioprotective solution every hour. Reperfusion was observed for 2 hours under normothermic cross-circulation. Hearts were divided into five groups depending on the agent(s) added to the K(+)-Mg2+ cardioplegic solution (K(+)-Mg(2+)-CP) infused. Control hearts (n = 6) received K(+)-Mg(2+)-CP solution alone; group I (n = 7) received lidocaine, 200 mg/L, added to the K(+)-Mg(2+)-CP solution; group II (n = 7) received betamethasone (250 mg/L) added to the formula for group I; group III (n = 6) received diltiazem (200 micrograms/L) added to the formula for group II; group IV (n = 7) received aprotinin (150 KIU/L) added to the formula of group III. Coronary sinus MB fraction of creatine kinase level was significantly decreased at 60 and 120 minutes of reperfusion in group II, as was mitochondrial aspartate aminotransferase level at 2 hours of reperfusion. Lysosomal enzyme release decreased in group IV. Myocardial adenosine triphosphate levels and total adenine nucleotides showed no significant difference among the groups at the end of reperfusion; however, myocardial adenosine diphosphate and adenosine monophosphate levels during reperfusion increased significantly in group I, and myocardial adenosine diphosphate and adenosine monophosphate levels at the end of reperfusion in groups I and IV were significantly higher than those of the control. Calcium overload, which was lowest in group II, was not completely prevented during reperfusion in any group. Left ventricular end-systolic pressure volume relationship in group II showed the "best" functional recovery. In addition, the ultrastructure of the left ventricular myocardium was well preserved in all groups. These results suggest that membrane stabilization with lidocaine and betamethasone affords beneficial effects on myocardial biochemical and functional viability. Diltiazem appears to be less effective in preventing calcium overload during ischemia-reperfusion, and protease inhibition with aprotinin (150 KIU/ml) seems to be highly effective in suppressing lysosomal enzyme activation-release and maintaining myocardial adenosine diphosphate and adenosine monophosphate levels.
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PMID:Heart preservation: analysis of cardioprotective infusate characteristics. Membrane stabilization, calcium antagonism, and protease inhibition on myocardial viability: a biochemical, ultrastructural, functional study. 137 28


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