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)

Published experimental data pertaining to the participation of coenzyme Q as a site of free radical formation in the mitochondrial electron transfer chain and the conditions required for free radical production have been reviewed critically. The evidence suggests that a component from each of the mitochondrial NADH-coenzyme Q, succinate-coenzyme Q, and coenzyme QH2-cytochrome c reductases (complexes I, II, and III), most likely a nonheme iron-sulfur protein of each complex, is involved in free radical formation. Although the semiquinone form of coenzyme Q may be formed during electron transport, its unpaired electron most likely serves to aid in the dismutation of superoxide radicals instead of participating in free radical formation. Results of studies with electron transfer chain inhibitors make the conclusion dubious that coenzyme Q is a major free radical generator under normal physiological conditions but may be involved in superoxide radical formation during ischemia and subsequent reperfusion. Experiments at various levels of organization including subcellular systems, intact animals, and human subjects in the clinical setting, support the view that coenzyme Q, mainly in its reduced state, may act as an antioxidant protecting a number of cellular membranes from free radical damage.
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PMID:The participation of coenzyme Q in free radical production and antioxidation. 219 54

The brain is a highly differentiated organ, exhibiting a variety of local metabolic and hemodynamic responses to ischemia. Several analytical strategies are useful in characterizing these abnormalities: these include the direct assay of tissue metabolites; topographic methods for depicting regional patterns of NADH, ATP, glucose, lactate, and pH; in vivo spectroscopic methods for analyzing mitochondrial redox state over time; autoradiographic approaches to quantitation of local glucose utilization, blood flow, protein synthesis, and pH; and the noninvasive methods of positron emission tomography and NMR spectroscopy, which are applicable as well to human studies. In focal ischemia, "core" regions of severe blood-flow reductions progress to irreversible injury, while the adjacent "penumbral" zone appears to represent an unstable region threatened with possible injury yet potentially amenable to therapeutic intervention. Glucose utilization in focal ischemia is remarkable for its local heterogeneity and, in the postischemic state, tends to be predictive of local tissue injury. The selective vulnerability of particular brain regions to injury following global ischemia has now been extensively correlated with alterations of local metabolism and hemodynamics. Hyperglycemia is generally deleterious to neuronal survival in ischemia--an effect mediated via tissue lactacidosis. Small differences in brain temperature also profoundly influence ischemic outcome. Areas remote from an ischemic focus may also show metabolic and functional abnormalities--so-called "diaschisis," which may be transneuronally and/or humorally mediated. Multiple neurotransmitters are released during ischemia and interact to influence tissue injury. Regional postischemic hypoperfusion may also influence outcome.
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PMID:Local metabolic responses to cerebral ischemia. 220 95

This study documents the value of continuous observation of nicotinamide adenine dinucleotide (NADH) fluorescence (NADH-F). NADH-F monitoring is used to identify ischemic regions for the recognition of minor technical failures associated with ischemia and reperfusion experiments in the isolated perfused heart system. The visualization of NADH-F is possible by simply irradiating the heart with ultraviolet light. Rat hearts, in the working-heart mode, were subjected to occlusion/reperfusion of the left coronary artery, and analyzed. The perfusate was filtered through a 5 micron pore membrane. Out of 281 hearts which were judged to be free of technical failures by conventional physiological indices (heart rate greater than 200/min, cardiac output greater than 34 ml/min, and coronary flow 9-14 ml/min), 43 (15%) disclosed an abnormal NADH-F area prior to the coronary intervention. During coronary intervention, 29 technical failures were detected as indicated by sparse NADH-F distribution with occlusion, delayed disappearance of NADH-F upon reperfusion, or the exhibition of an abnormal NADH-F region unassociated with the coronary artery supply area. These technical failures are not detectable without the use of NADH-F, although the actual number of failures detected may depend on the skill of the operator. We recommend NADH-F monitoring for any preparations which do not contain hemoglobin, since NADH-F is an intrinsic probe for ischemia and is easily applicable to a variety of experiments.
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PMID:The detection of technical failures in perfused heart with ischemia and reperfusion by epicardial NADH fluorescence. 222 7

NADH laser fluorimetry and mitochondrial oxigraphy were used to study myocardial oxidative energy metabolism during cardiac allograft rejection. Heterotopic cardiac transplantation was performed on Lewis rats; allografts (with Fischer rat donors) were compared with isografts (with Lewis rat donors). In vivo and in vitro assays were performed six days after transplantation. Myocardial NADH fluorescence was recorded in vivo from grafted hearts, at baseline; during brief, complete ischemia; and during reperfusion. Oxygen consumption of mitochondria isolated from both native and grafted hearts was determined. Neither baseline levels nor maximum ischemic levels of NADH fluorescence (F0 = k[NADH]) were found to be significantly different between allografts (0.45 +/- 0.05 to 0.87 +/- 0.10) and isografts (0.45 +/- 0.04 to 1.11 +/- 0.05). During recovery, the rate of fluorescence decrease was significantly lower in allografts than in isografts (0.024 +/- 0.001 vs. 0.038 +/- 0.002 delta F0.s-1, P less than 10(-3], indicating a lower rate of NADH reoxidation. In the presence of malate and glutamate substrates, mitochondrial O2 consumption was significantly lower in allografts than in isografts (30 +/- 9 vs. 100 +/- 15 nanoatoms O2. min-1.mg prot-1, P less than 10(-2]. These results indicate that mitochondrial oxidative metabolism was impaired during the rejection process. Such energy production disturbances may contribute to the dysfunction of rejecting hearts.
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PMID:Evidence of mitochondrial impairment during cardiac allograft rejection. 223 49

1. Thus far metabolic processes in the intact animal (or man) have been studied either by the analysis of body fluids, of biopsies, of tissue obtained post mortem or by techniques, requiring dedicated and expensive equipment (such as positron emission tomography or magnetic resonance spectroscopy). 2. Here we describe a relatively simple and inexpensive technique, that can be applied in vivo to study metabolism in brain regions and muscle in the freely moving rat and in human peripheral tissue. 3. The method is based on microdialysis allowing continuous sampling from the extracellular space, the enzymatic conversion of lactate and the on-line detection of fluorescent NADH. 4. Examples of the application of our technique include the monitoring of lactate efflux from various brain regions of behaving animals under a variety of stress exposures, during ischemia or hypoxia and drug treatments. 5. The results indicate that in brain lactate is not exclusively formed under hypoxia and that neuronal activation leads also to lactate formation, possibly due to the compartmentation of both the involved enzymes and the energy metabolism. 6. The increase of lactate formation in contracting or ischemic muscle or during exercise could also be followed on-line in the rat, suggesting that our approach allows the continuous monitoring of anaerobic metabolism in man e.g. during traumatic or arteriosclerotic limb ischemia or lactic acidosis in shock states. 7. The principle of our approach can easily be adapted to other metabolites, thus enabling to monitor other metabolic pathways in vivo as well.
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PMID:Lactography as an approach to monitor glucose metabolism on-line in brain and muscle. 227 11

Changes in phosphorus metabolites and intracellular pH in acute liver failure induced by D-galactosamine (GAL) were evaluated non-destructively and continuously using 31P-NMR spectroscopy. Furthermore, changes in these parameters under ischemia were also examined. GAL(1.0g/kg) was injected intravenously to male Wistar rats. NMR measurements in perfused livers were performed with a GX-270FT NMR spectrometer (JEOL). Typical changes in 31P-NMR spectra were observed after GAL administration. ATP levels decreased to 57.4 +/- 12.4% at 12 hours and to 65.4 +/- 7.7% at 24 hours after the administration compared with that in control rats. Pi levels increased remarkably to 632.1 +/- 76.4% at 3 hours and recovered to 127.5 +/- 22% at 24 hours. NAD+/NADH and UDP-sugar levels gradually increased to 253.5 +/- 33.4 and 456.3 +/- 60.9%, respectively, at 24 hours. In GAL treated livers, ATP levels fell rapidly and Pi levels rose correspondingly during ischemia, and they rapidly recovered by reperfusion. The intracellular pH decreased to 7.16 +/- 0.032 from 7.38 +/- 0.065 at 3 hours after GAL administration. However, significant changes in pH were not observed until 24 hours. In GAL treated livers, slight changes in pH were observed under ischemia. These results indicate that 31P-NMR is a useful method to evaluate the damage of acute liver failure, and to diagnose liver diseases involving the intrahepatic energy metabolism.
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PMID:[31P nuclear magnetic resonance study of intrahepatic energy metabolism in acute liver failure]. 231 84

The effect of defibrotide treatment in protecting liver metabolism from ischemic damage was studied. The drug was administered to male Wistar rats as a bolus (30 mg/kg body weight) at the beginning of 60 min ischemia and then continuously during 60 min of postischemic reperfusion at a dose of 30 mg/kg body weight. This dose was previously identified as useful to protect against myocardial ischemia induced in the cat. ATP and ADP intrahepatic levels were significantly higher in drug-treated rats than in untreated animals. The liver cytoplasmic NAD+/NADH ratio in defibrotide-treated rats was no different from that observed in sham-operated rats. The mitochondrial NAD+/NADH ratio in the liver was also improved by defibrotide treatment. Our data suggest that defibrotide may exert protective activity on hepatocytes useful for inducing a rapid restoration of their metabolism. Such a restoration is possibly related to improvement of microcirculation through an increase in prostaglandin I2 production or oxygen delivery due to drug administration.
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PMID:Prevention of impaired liver metabolism due to ischemia in rats. Efficacy of defibrotide administration. 233 94

Unilateral ischemia in the right cerebral hemisphere of the rat was induced by ligation of the right common carotid artery coupled with controlled hemorrhage to produce hypotension (25 +/- 8 mm/Hg). Where indicated after 30 min of ischemia, the withdrawn blood was reinfused to restore arterial pressure to normal. Mitochondria isolated from the ipsilateral hemisphere after 30 min of ischemia showed significantly lower respiratory rates than the organelles isolated from the contralateral side. Oxidation of NAD(+)-linked substrates was more sensitive to inhibition in ischemia (30%) than was of ferrocytochrome c (12%), succinate oxidation being intermediate. The activities of membrane-bound dehydrogenases (both NADH and succinate-linked) were also significantly lowered. Ischemia did not affect the cytochrome content of mitochondria. Respiratory activity (NAD(+)-linked) of mitochondria isolated from the ipsilateral hemisphere was twice as sensitive to inhibition by fatty acid as was of preparations from the contralateral side. Mitochondria isolated from cerebral cortex after 90 min of post-ischemic reperfusion showed no significant improvement in the rate of substrate oxidation. Adenine nucleotide translocase activity and energy-dependent Ca2+ uptake, both of which decreased significantly in mitochondria isolated from the ischemic brain, showed little recovery, on reperfusion. These observations suggested the strong possibility that the deleterious effects of ischemia on mitochondrial respiratory function might be mediated by free fatty acids that are known to accumulate in large amounts in ischemic tissues. The pattern of inhibition of ATPase activity was consistent with this view.
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PMID:Influence of cerebral ischemia and post-ischemic reperfusion on mitochondrial oxidative phosphorylation. 234 84

The Mongolian gerbil (Meriones unguiculatus) provides a very useful animal model to study the effects of ischemia on brain functions. In this model it is possible to induce two levels of ischemia in the same animal. Thus, monitoring the brain in vivo in real-time will provide meaningful information regarding the development of ischemic injury as well as the follow-up during the recirculation period. The aims of the study were as follows: (1) To elucidate the mechanism behind the development of ischemic depolarization under unilateral and bilateral carotid artery occlusion. (2) To exclude the possibility that removal of the dura mater will affect the results. (3) To correlate the kinetics of the recovery processes to the level of ischemia. We tested the correlation between energy depletion level (evaluated by intramitochondrial NADH redox state) and the development of ischemic depolarization (ID) and vasospasm (evaluated by extracellular K+, DC potential and 366 nm reflectance changes, respectively) under partial and complete ischemia (induced by unilateral or bilateral carotid artery occlusion) using the multiparametric monitoring system (MPA). In 12 out of 32 gerbils monitored by the MPA, the dura mater remained intact, while in the other 20, it was removed very gently before connecting the MPA to the brain. Two types of responses to unilateral carotid artery occlusion were recorded and the gerbils were divided into groups according to the development of the ID. In a third group of 5 gerbils we tested the effect of 1-5 min of bilateral occlusion on the various parameters monitored.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Level of ischemia and brain functions in the Mongolian gerbil in vivo. 240 Sep 22

The recovery of coronary flow and cardiac work was studied in isolated guinea pig hearts (working-heart preparation) after successive bolus injections of leukotriene D4 (LTD4) at increasing doses (0.01-1,000 ng). LTD4 caused an immediate (within 1 min) reduction in coronary flow and cardiac work and an increase in myocardial NADH fluorescence. There was limited spontaneous recovery at any dose and at the end of the cumulative LTD4 study, coronary flow recovered only from 41.4 +/- (SE) 3.5 (n = 10) to 53.5 +/- 4.7% of initial values, and cardiac work recovered from 21.2 +/- 4.1 to 33.1 +/- 5.6% (P less than 0.05). Adenosine (1 X 10(-6) M) or iloprost (1 X 10(-7) M) restored coronary flow but not cardiac work after LTD4 injections, in contrast to full recovery of cardiac work observed in hearts subjected to a similar degree of ischemia induced by reducing the coronary flow by a peristaltic pump, or hypoxia caused by reducing PO2 of the perfusion fluid. Adenosine (1 X 10(-6) M) and forskolin (1 X 10(-6) M) in combination, or iloprost (1 X 10(-7) M) and isoproterenol (1 X 10(-8) M) in combination, restored both coronary flow and cardiac work to control levels. Myocardial NADH levels, which increased immediately after LTD4 injections, returned to normal after perfusion with adenosine or iloprost. The data suggest that LTD4 has a prolonged vasoconstrictive effect on the heart. Reversal of this effect by compounds that stimulate adenylate cyclase of the vascular tissue (adenosine, prostacyclin) revealed a direct suppressive effect on the myocardium independent of the vascular effect and myocardial ischemia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inducers of adenylate cyclase reverse the effect of leukotriene D4 in isolated working guinea pig heart. 243 50

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