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Query: UMLS:C0038454 (stroke)
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The early natural history of left anterior descending coronary artery occlusion was studied in 35 open-chest anesthetized dogs observed for 6 hours. Six control dogs underwent isolation of the left anterior descending without occlusion, 13 underwent isolated occlusion of the artery to simulate single-vessel disease, and 14 underwent occlusion of the left anterior descending and 50% stenosis of the circumflex coronary artery to simulate multivessel disease. Regional systolic shortening was measured by ultrasonic crystals. Control dogs had a mild fall in cardiac output (27%) and rise in aortic pressure (15 mm Hg). Ischemia produced immediate dyskinesia (-60% of control systolic shortening), and passive lengthening persisted for 6 hours. All dogs with only occlusion of the left anterior descending artery survived (0% mortality). They were less prone to ventricular fibrillation (46% versus 79%, p less than 0.05), developed compensatory hypercontractility of remote muscle (131% of control systolic shortening, p less than 0.05), mild energy and substrate depletion, and anaerobic metabolism (increased glucose-6-phosphate, p less than 0.05) despite maintenance of "normal" blood flow. In contrast, the early mortality rate was 57% (p less than 0.05) when 50% circumflex stenosis coexisted. Intractable ventricular fibrillation and/or cardiogenic shock caused the deaths. Remote muscle became progressively hypocontractile (61% of control systolic shortening, p less than 0.05), with progressive reduction in stroke work index (less than 0.5 gm-m/kg, p less than 0.05). Remote muscle showed moderate substrate and energy depletion (greater than 60% fall of adenosine triphosphate and creatine phosphate, 37% fall of glutamate) and more pronounced evidence of anaerobic metabolism (glucose-6-phosphate rose greater than 400%, p less than 0.05) despite normal blood flow. Mitochondrial ultrastructure and function remained intact in all hearts. These findings suggest that remote muscle is the principal determinant of mortality after an otherwise nonlethal ischemic event. Functional deterioration despite normal blood flow to remote muscle suggests either autoregulatory failure or substrate depletion as a cause of hypocontractility. The structural and functional integrity of mitochondria in ischemic and remote myocardium implies that salvage is possible despite hemodynamic deterioration and intractable ventricular fibrillation.
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PMID:Studies on prolonged acute regional ischemia. III. Early natural history of simulated single and multivessel disease with emphasis on remote myocardium. 277 Mar 19

This study was designed to test the effect of glucose and a formulation enriched with branched chain amino acids as additives to oxygenated crystalloid cardioplegic solution in the ischemic heart. Energy-depleted isolated working rat hearts were subjected to 68 minutes of normothermic global ischemia during which oxygenated cardioplegic solution was used to protect them. The hearts were then reperfused in the nonworking mode for 10 minutes and for a further 30 minutes in the working mode. The hearts were randomly divided into three groups, in which various oxygenated cardioplegic solutions were perfused. Group 1 (control) was subjected to modified St. Thomas' Hospital cardioplegic solution and groups 2 and 3 to the same solution with the addition of glucose (11.1 mmol/L) and glucose (11.1 mmol/L) and branched chain amino acids, respectively. Recovery of aortic flow, coronary flow, cardiac output, aortic pressure, adenosine triphosphate, creatine phosphate, and oxygen consumption was significantly better in group 2 than in group 1. In addition, recovery of aortic flow, coronary flow, cardiac output, aortic pressure, stroke volume, minute work, adenosine triphosphate, and creatine phosphate was found to be significantly enhanced in group 3. Release of adenine catabolites and lactic dehydrogenase from these hearts during postischemic reperfusion was significantly decreased. Thus, during global ischemia in the energy-depleted heart, the presence of glucose and branched chain amino acids in oxygenated crystalloid cardioplegic solution enhanced myocardial protection.
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PMID:The effect of amino acids on the ischemic heart. Improvement of oxygenated crystalloid cardioplegic solution by an enriched branched chain amino acid formulation. 279 71

Although decreased CBF has now been reported during the prodrome of migraine, the cause of the decreased flow is still unknown. It is particularly unclear whether these phenomena are related to vasospasm and "steal" between the extracranial and intracranial circulation or to the spreading depression of Leao and the accompanying metabolic depression. In the present paper, metabolic changes in the brain during ischemia and reperfusion are reviewed and compared with CNS biochemical changes during migraine attack. In addition, the technique of Topical Magnetic Resonance (TMR) as applied to the in vivo study of energy phosphate metabolism in extracranial tissues and brain is described and the potential of this technique to evaluate shifts in energy metabolism and pH in stroke and migraine is discussed.
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PMID:Biochemical effects of cerebral ischemia: relevance to migraine. 286 8

Leukotrienes C4 and D4 are arachidonic acid metabolites that constrict blood vessels and enhance vascular permeability; their biosynthesis is initiated by the reaction of arachidonic acid with 5-lipoxygenase enzyme. After bilateral carotid artery occlusion for 15 minutes and reperfusion of the gerbil brain for 15 minutes, we determined the brain tissue concentrations of leukotrienes C4 and D4 by radioimmunoassay; they had increased from a baseline concentration of less than 1 to a mean +/- SEM concentration of 12.8 +/- 3.9 pmol/g brain. We also studied the effect of a flavonoid 5-lipoxygenase inhibitor on leukotriene production in the reperfused gerbil brain. A water-soluble flavonoid (5-hexyloxy-3',4'-dihydroxy-6,7-dimethoxyflavone 4'-disodium phosphate) was administered intravenously at a dose of 200 mg/kg body wt; 15 minutes later, both carotid arteries were occluded. The enhanced production of leukotrienes C4 and D4 in the reperfused brain was reduced by approximately 80% (from a mean +/- SEM of 12.8 +/- 3.9 to 2.2 +/- 1.3 pmol/g brain) in the presence of the 5-lipoxygenase inhibitor. The flavonoid did not affect the production of prostaglandin D2, the concentration of which also increased in the reperfused ischemic brain.
Stroke 1989 Feb
PMID:A flavonoid inhibitor of 5-lipoxygenase inhibits leukotriene production following ischemia in gerbil brain. 291 14

Hemodynamic, renal, and hormonal effects of intravenous bolus injection of 50 micrograms synthetic alpha-human atrial natriuretic peptide (alpha-hANP) were studied in eight patients with congestive heart failure. alpha-hANP caused significant reductions in mean blood pressure and systemic vascular resistance. These responses were sustained up to 90 minutes and not accompanied by reflex tachycardia. Cardiac index and stroke volume index increased significantly at 90 minutes and pulmonary capillary wedge pressure, pulmonary arterial pressure, and mean right atrial pressure remained unchanged. Urine volume, urinary sodium excretion, creatinine clearance, and fractional excretion of sodium increased significantly, but fractional excretion of potassium and phosphate did not change. Elevated plasma renin activity, plasma aldosterone, and norepinephrine were suppressed after the injection of alpha-hANP. The bolus injection of this peptide has moderately hypotensive, vasorelaxant, and natriuretic effects in patients with congestive heart failure.
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PMID:Hemodynamic, renal, and hormonal responses to alpha-human atrial natriuretic peptide in patients with congestive heart failure. 295 95

"Energy metabolism" is deranged in a wide variety of disorders of the nervous system. This term refers rather loosely to the pathways responsible for the utilization of the major substrates of brain. Primary disorders of energy metabolism are those in which the primary insult affects the cellular machinery required for energy metabolism. A typical example would be a defect in a gene coding for a mitochondrial protein. Biochemically, defects which appear to be hereditary and which lead to disease of the central nervous system have been described in each of the pathways of energy metabolism: glycogenolysis (the break-down of glycogen to glucose); glycolysis (the break down of glucose to pyruvate and lactate); the pyruvate dehydrogenase complex (which oxidizes pyruvate to enter the Krebs tricarboxylic acid cycle); the tricarboxylic acid cycle itself (which completes the oxidation of carbohydrates and other substrates to carbon dioxide); electron transport (which carries out their oxidation to water); the pentose phosphate pathway (an alternate pathway for glucose oxidation); and several "minor" mitochondrial pathways. Clinically, the spectrum of syndromes associated with primary disorders of energy metabolism is wide. Common manifestations include psychomotor retardation, with associated lactic acidosis and/or hypoglycemia. The laboratory abnormalities may be intermittent. Syndromes which have been culled out include congenital lactic acidosis, Leigh disease, intermittent ataxia, Kearns-Sayre-Shy syndrome (KSS), myoclonus epilepsy with ragged red fibers (MERRF), and mitochondrial myopathy-encephalopathy-lactic acidosis-stroke (MELAS). As with other families of inborn errors, both clinical and biochemical heterogeneity occur. Patients with apparently similar clinical syndromes can turn out to have different inborn errors, and patients with abnormalities of the same gene product can have clinically distinguishable syndromes. Secondary disorders are those in which the derangements of energy metabolism are presumably secondary to some other insult but may still be important for the cellular pathophysiology. These include the metabolic encephalopathies and probably a number of well-known neurodegenerative disorders. In the hereditary ataxias, abnormalities of mitochondrial markers are common but do not correlate consistently with the disorders as conventionally classified; a new classification into axonal ataxias, multiple system degenerations, and ataxic encephalopathies may be easier to relate to the pathophysiology.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Energy metabolism in disorders of the nervous system. 297 43

The primary role of the heart is to provide energy for the circulatory transport of oxygen (O2) to cells at rates commensurate with their metabolic activity. At rest, even a "sick" heart may be capable of transporting O2 adequately. But during exercise, the increase in O2 required by muscle cells demands that their blood flow be increased. The supply of O2 needed to meet the O2 requirement for muscle mitochondrial high-energy phosphate generation during exercise is a critical function of the circulation. Thus, the adequacy of cardiovascular function can be estimated, noninvasively, from the pattern of O2 uptake in response to an exercise stimulus. While arterial O2 tension (PaO2) is dependent on pulmonary function (except for intracardiac right-to-left shunt), the mass transfer of O2 (VO2) between the cells and lungs depends on pulmonary blood flow (i.e., cardiac output) and O2 concentration difference between the pulmonary arterial and pulmonary venous blood, C(a-v)O2 (Fick principle). Thus, VO2 in the first 15 seconds of exercise can be used to describe the initial increase in pulmonary blood flow and stroke volume, while the subsequent rise in VO2 results from the further increase in VO2 in response to work rate increase are used to detect circulatory disturbances. Also, the rate of CO2 output (VCO2) has been valuable in the assessment of cardiovascular function when related to VO2. Inadequate O2 availability results in anaerobic metabolism, causing increased muscle lactic acid production. At the pH of cell water, most of the hydrogen ions produced with lactate are buffered by bicarbonate. The CO2 generated by the buffering reaction (22 ml for each milliequivalent) causes a net increase in VCO2 relative to VO2 at the work rate at which buffering begins. This provides a useful estimate of the anaerobic threshold. Thus, study of the dynamic coupling of external to cellular respiration during a work rate stimulus provides valuable, direct, and noninvasive information about cardiovascular mechanisms in health and disease.
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PMID:The Dickinson W. Richards lecture. New concepts in assessing cardiovascular function. 316 85

The use of oral phosphate (Pi) supplements to improve muscular work performance has long been proposed without substantiating data. In a double-blind, crossover experiment 11 male runners ingested calcium Pi (176 mmol/day) or placebo for 4 days. On the 3rd treatment day, subjects ran an incremental maximal aerobic capacity test (VO2 max) on a treadmill, and on the 4th day a treadmill run to exhaustion at approximately 70% VO2max. By the 4th day of Pi loading, plasma Pi was significantly higher than control (P less than 0.05); however, erythrocyte Pi, 2,3-diphosphoglycerate, and O2 half-saturation pressure of hemoglobin (P50) were not elevated. VO2 max was not changed by the treatments (mean 62.9, 64.2, 64.9 ml.kg-1.min-1 for control, Pi, and placebo bouts, respectively) nor was submaximal run time to exhaustion (61.6 min for Pi, 65.5 min for placebo). Stroke volume at steady-state VO2 was decreased with Pi (P less than 0.05), whereas cardiac output tended (P = 0.07) to be lower. Greater arteriovenous O2 difference (P less than 0.05) with Pi suggested a peripheral effect that increased O2 extraction. We concluded that in healthy individuals Pi loading produced no improvement in work tolerance or aerobic capacity but did alter some aspects of cardiovascular function.
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PMID:Phosphate supplementation, cardiovascular function, and exercise performance in humans. 318 42

In 27 cats treated to vary arterial serum glucose concentrations, we measured cerebral high-energy phosphate metabolite concentration and intracellular pH using in vivo phosphorus-31 nuclear magnetic resonance spectroscopy during transient global cerebral ischemia and reperfusion. Hypoglycemia was induced with 4 units/kg i.v. insulin in six cats before ischemia; hyperglycemia was induced with 1.5 g/kg i.v. glucose in six cats before and in six cats during ischemia. Nine untreated cats subjected to ischemia without manipulation of blood glucose concentration served as controls. During ischemia, intracellular pH fell to similar levels in the control and both hyperglycemic groups. During reperfusion, the hyperglycemic before ischemia group initially exhibited a severe further decline in intracellular pH (p less than 0.003); this further decline was not observed in the control or the hyperglycemic during ischemia groups. Intracellular acidosis was attenuated both during ischemia and early after reperfusion in the hypoglycemic before ischemia group. In all groups, cerebral high-energy phosphate metabolite concentrations were depleted during ischemia and then recovered to the same degree during reperfusion. Our data suggest that brain glucose stores before ischemia determine the severity and time course of intracellular acidosis during ischemia and reperfusion.
Stroke 1988 Nov
PMID:Global cerebral ischemia and intracellular pH during hyperglycemia and hypoglycemia in cats. 318 23

Fetal cortex from 16- and 17-day-old embryonic rats was transplanted into the parietal cortex of 12 adult rats rendered ischemic by temporary intraluminal occlusion of the middle cerebral artery. Ischemic injury in the host cortex adjacent to all nine surviving transplants was demonstrated with hematoxylin and eosin and cresyl violet strains. Nicotidamide adenine dinucleotide phosphate-diaphorase (NADPH-d) histochemical studies revealed a normal number of NADPH-d-positive neurons, whereas acetylcholinesterase (AChE) staining revealed many more AChE-positive neurons in the transplants compared to the host parietal cortex. This could be due to: 1) selective survival of AChE neurons in the transplants compared to the host cortex; 2) increased expression of AChE in transplanted neurons; 3) induction of AChE in normally AChE-negative neurons; or 4) decreased transport of the AChE enzyme from the perikarya to fibers in surviving transplanted neurons. Many fibers positive for AChE and NADPH-d crossed between the host and transplant, although fiber density in the transplants was less than in normal host cortex. These results should encourage future investigation of whether similar transplants improve neurological function following experimental stroke.
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PMID:Neuronal changes in fetal cortex transplanted to ischemic adult rat cortex. 319 96

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