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

It is reported that CNS hemorrhage causes membrane dysfunction and may exacerbate this damage as a result of secondary ischemia or hypoxia. Since hyperbaric oxygenation improves oxygen metabolism, it may reduce this membrane damage. The present study was conducted to reveal whether hyperbaric oxygenation influences membrane alteration after hemorrhage. Thirty minutes after subarachnoid hemorrhage induction, rats were treated with hyperbaric oxygenation 2 ATA for 1 hour. Rats were decapitated 2 hours after subarachnoid hemorrhage induction. Na+, K(+)-ATPase activity measurement and spin-label studies were performed on crude synaptosomal membranes. Subarachnoid hemorrhage decreased Na+, K(+)-ATPase activity. Spin label studies showed that hydrophobic portions of near the membrane surface became more rigid and the mobility of the membrane protein labeled sulfhydryl groups decreased after subarachnoid hemorrhage. Hyperbaric oxygenation significantly ameliorated most of the subarachnoid hemorrhage induced alterations. We conclude that hyperbaric oxygenation may be a beneficial treatment for acute subarachnoid hemorrhage.
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PMID:Effect of hyperbaric oxygenation on the Na+, K(+)-ATPase and membrane fluidity of cerebrocortical membranes after experimental subarachnoid hemorrhage. 823 20

Spin-echo magnetic resonance imaging (MRI) was evaluated to 530 cases in order to investigate the clinical, significance of pontine high signals. The subjects comprised 109 cases of pontine infarction with high signal on T2-weighted image and low signal on T1-weighted image (PI group), 145 of pontine high signal with high signal on T2-weighted image but normal signal on T1-weighted image (PH group) and 276 of age-matched control without abnormality either on T1 or T2-weighted images (AC group). Subjective complaints such as vertigo-dizziness were more frequent in the PH group than in the PI group. In both PI and PH groups, periventricular hyperintensity as well as subcortical high signals in the supratentorium were more severe than in the AC group. These degrees were higher in the PI group than in the PH group. In conclusion, PH as well as PI may result from diffuse arteriosclerosis and PH is considered to be an early finding of pontine ischemia.
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PMID:[Clinical significance of pontine high signals identified on magnetic resonance imaging]. 825 23

The present investigation seeks to elucidate the molecular mechanism responsible of the transformation of redox-cycling ubiquinone (UQ) from a save electron carrier to an O2.- generator as observed in toluene-treated mitochondria as well as in mitochondria exposed to conditions of organ ischemia/reperfusion. Starting from the earlier finding that for thermodynamic grounds autoxidation of ubisemiquinone (SQ.-) requires the accessibility of protons, two possibilities were considered: a) protons from the aqueous phase may penetrate into the phospholipid bilayer and react with SQ.- due to a decreased hydrophobicity of the membrane, b) the physical state of the membrane remains unchanged while the binding of redox-cycling UQ is changed such that SQ.- will come into contact with the aqueous phase in the polar head group section. Spin probes were used to follow changes of the physical order of phospholipids of the inner mitochondrial membrane. Binding changes of mitochondrial SQ.- were assessed from power saturation experiments and spin-spin interactions with a Cr3+ salt of the aqueous phase were studied to recognize orientation changes via the polar head group section of the membrane. Our results show that autoxidation of SQ.- occurs in two different ways. In the case of membrane insertion of toluene, the physical property of the membrane was affected such that protons could penetrate and allow SQ.- to undergo autoxidation. In contrast, mitochondrial respiration of cytosolic NADH accumulating during ischemia involves a low saturating SQ.- species that readily autoxidizes due to its spatial orientation close to the aqueous face of the membrane. We conclude from these observations that in line with thermodynamics autoxidation of SQ.- in mitochondria requires protons that normally have no access.
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PMID:Conditions allowing redox-cycling ubisemiquinone in mitochondria to establish a direct redox couple with molecular oxygen. 874 41

Detection of free radicals by electron spin resonance (ESR) proves the involvement of reactive oxygen species (ROS) in reperfused organ injuries. Spin-traps are known to ameliorate hemodynamic parameters in an isolated postischemic heart. The effects of 5 mmol/L DMPO (5,5-dimethyl-1-pyrroline-N-oxide) or DEPMPO (5-(diethlphosphoryl)-5-methyl-1-pyrroline N-oxide) on intracellular pH (pHin) and ATP level were evaluated by 31P nuclear magnetic resonance on isolated rat liver submitted to 1 hour of warm ischemia and reperfusion. At the end of the reperfusion period, during which pHin recovered to its initial value (7.16 +/- 0.03) in all groups, the ATP recovery level (expressed in percentage of initial value) was similar in controls and DEPMPO (60% +/- 5%, n = 6 and 54% +/- 4%, n = 6, respectively), but only 37% +/- 1% in DMPO-treated livers (n = 6) (p < 0.05 versus controls and p < 0.05 versus DEPMPO). Oxidative phosphorylation was not affected by an addition of nitrones on isolated mitochondria extracted from livers not submitted to ischemia-reperfusion. In contrast, mitochondria extracted at the end of the ischemia-reperfusion showed an impairment in the phosphorylation parameters, particularly in the presence of DMPO. Mass spectrum of ischemic liver perchloric acid extracts evidenced probable catabolites in treated groups. The differences in the effect of the two nitrones on energetic metabolism may be explained by the production of deleterious catabolites by DMPO as compared to DEPMPO. Even though a specific radical scavenging effect could be operative in the liver, our results indicate that catabolic effects were predominant. The absence of deleterious effects of DEPMPO in contrast to DMPO on the liver energetic metabolism was evidenced, allowing the use of DEPMPO for ESR detection.
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PMID:Use of spin-traps during warm ischemia-reperfusion in rat liver: comparative effect on energetic metabolism studied using 31P nuclear magnetic resonance. 921 79

Spin-trapping techniques combined with electron paramagnetic resonance (EPR) spectroscopy to measure nitric oxide (NO) production were compared in the ischemic-reperfused myocardium for the first time, using both aqueous-soluble and lipophilic complexes of reduced iron (Fe) with dithiocarbamate derivatives. The aqueous-soluble complex of Fe and N-methyl-D-glucamine dithiocarbamate (MGD) formed MGD2-Fe-NO complex with a characteristic triplet EPR signal (aN 12.5 G and giso = 2.04) at room temperature, in native isolated rat hearts following 40 min global ischemia and 15 min reperfusion. Diethyldithiocarbamate (DETC) and Fe formed in ischemic-reperfused myocardium the lipophilic DETC2-Fe-NO complex exhibiting an EPR signal (g perpendicular = 2.04 and g parallel = 2.02 at 77 K) with a triplet hyperfine structure at g perpendicular. Dithiocarbamate-Fe-NO complexes detected by both trapping agents were abolished by the .NO synthase inhibitor, NG-nitro-L-arginine methyl ester. Quantitatively, both trapping procedures provided similar values for tissue .NO production, which were observed primarily during ischemia. Postischemic hemodynamic recovery of the heart was not affected by the trapping procedure.
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PMID:EPR detection of endogenous nitric oxide in postischemic heart using lipid and aqueous-soluble dithiocarbamate-iron complexes. 935 38

Ascorbyl free radical (AFR), can be considered as an atoxic and endogenous indicator of oxidative stress. The purpose of our experiments was to investigate the influence of the severity and length of ischemia on the extent of AFR release during myocardial ischemia and reperfusion. For that purpose, isolated perfused rat hearts were submitted to a global ischemia, either total (residual flow 0%) or low flow (residual flow 5%), of 20 or 60 min length. Coronary effluents were collected at different times of experimentation and analyzed with Electron Spin Resonance (ESR) spectroscopy. AFR ESR doublet (g = 2.0054, aH = 0.188 MT) was not detected in coronary effluents collected during control perfusion periods. Nevertheless, during low-flow ischemia, a weak AFR release was noted. Moreover, a sudden and massive AFR liberation was observed at the time of reperfusion: this AFR release was weaker after low-flow ischemia than after total ischemia and was enhanced when the duration of ischemia increased from 20 min to 60 min. The large liberation of AFR noticed during global total ischemia was associated with a greater depression in myocardial contractile function and a lower recovery in coronary flow. In conclusion, our study demonstrates that AFR production at the time of reperfusion depends on the duration and strength of the ischemia, and is related to free radical injury. According to previously described ascorbate/AFR properties, we can conclude that AFR liberation in coronary effluents could represent a marker of oxidative stress during ischemia and/or reperfusion of hearts. This AFR release could be considered a sign of the severity of the ischemic episode, and could be related to the functional impairment during reperfusion.
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PMID:Influence of the severity of myocardial ischemia on the intensity of ascorbyl free radical release and on postischemic recovery during reperfusion. 943 60

This is a preliminary investigation of the usefulness of spin-trapping electron paramagnetic resonance (EPR) in detecting oxygen-derived free radicals after reperfusion of ischemic skin flaps. Fourteen island skin flaps approximately 12 cm long by 6 cm wide based on the caudal superficial epigastric vessels were isolated in seven dogs. Seven of the paired skin flaps were subjected to 4 hours of arterial and venous occlusion. The opposite skin flap on each dog served as a perfused control. Spin trapping-EPR was able to detect radical adducts in five of the seven reperfused skin flaps. Hyperfine splitting constants of the radical adducts from the blood of three of the flaps confirmed biologically derived free radical production. Contaminating EPR signals from free radicals created in the manufacture of plastics probably masked any biologically derived radical adducts in the remaining flaps. The authors conclude that EPR-spin trapping may be a valuable tool in the study of the importance of oxygen-derived free radicals in the failure of skin flaps subjected to transient ischemia.
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PMID:Detection of free radicals in reperfused dog skin flaps using electron paramagnetic resonance spectroscopy: a pilot study. 1033 45

The apparent diffusion coefficient (ADC) and relaxation times of water were measured by magnetic resonance imaging (MRI) in the isolated turtle cerebellum during osmotic cell volume manipulation. The aim was to study effects of cell volume changes, a factor in ischemia and spreading depression, in isolation from considerations of blood flow and metabolism. Cerebella were superfused at 12-14 degrees C with solutions ranging from 50-200% normal osmolarity. Hypotonic solutions, which are known to cause cell swelling, led to reductions of ADC and increases of T(2), while hypertonic solutions had the opposite effect. This supports the concept that ADC varies with the extracellular space fraction and, combined with published data on extracellular ion diffusion, is consistent with fast or slow exchange models with effective diffusion coefficients that are approximately 1.7 times lower in intracellular than in extracellular space. Spin-spin relaxation can be affected by osmotic disturbance, though such changes are not seen in all pathologies that cause cell swelling.
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PMID:Apparent diffusion coefficient and MR relaxation during osmotic manipulation in isolated turtle cerebellum. 1097 95

Although perfusion-weighted imaging techniques are increasingly used to study stroke, no particular hemodynamic variable has emerged as a standard marker for accumulated ischemic damage. To better characterize the hemodynamic signature of infarction. the authors have assessed the severity and temporal evolution of ischemic hemodynamics in a middle cerebral artery occlusion model in the rat. Cerebral blood flow (CBF) and total and microvascular cerebral blood volume (CBV) changes were measured with arterial spin labeling and steady-state susceptibility contrast magnetic resonance imaging (MRI), respectively, and analyzed in regions corresponding to infarcted and spared ipsilateral tissue, based on 2,3,5-triphenyltetrazolium chloride histology sections after 24 hours ischemia. Spin echo susceptibility contrast was used to measure microvascular-weighted CBV, which had a maximum sensitivity for vessels with radii between 4 and 30 microm. Serial measurements between 1 and 3 hours after occlusion showed no change in CBF (22 +/- 20% of contralateral, mean +/- SD) or in total CBV (78 +/- 13% of contralateral) in regions destined to infarct. However, microvascular CBV progressively declined from 72 +/- 5% to 64 +/- 11% (P < 0.01) during this same period. Microvascular CBV changes with time were entirely due to decreases in subcortical infarcted zones (from 73 +/- 9% to 57 +/- 14%. P < 0.001) without changes in the cortical infarcted territory. The hemodynamic variables showed differences in magnitude and temporal response, and these changes varied based on histologic outcome and brain architecture. Such factors should be considered when designing imaging studies for human stroke.
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PMID:Is all perfusion-weighted magnetic resonance imaging for stroke equal? The temporal evolution of multiple hemodynamic parameters after focal ischemia in rats correlated with evidence of infarction. 1099 56

Interrelation of T(1) and diffusion of water was studied in rat models of acute global and focal cerebral ischemia. Cortical T(1), as quantified with an inversion recovery method, increased by 4-7% within a few minutes of global ischemia at 4.7 and 9.4 T, but a significantly smaller change was detected at 1.5 T. The initial T(1) change occurred within seconds of cardiac arrest, much earlier than the extensive diffusion drop after 1-2 min. Thus, the initial increase in T(1) upon acute cerebral ischemia is directly caused by cessation of blood flow. In transient middle cerebral artery occlusion (MCAO), prolonged T(1) relaxation was detected within 10 min, with a subsequent increase during the course of ischemia. Spin density did not change during the first hour, showing that T(1) increase was not caused by net accumulation of water. Interestingly, partial recovery of T(1) upon release of MCAO, occurring independent of long-term tissue outcome, was observed only in concert with diffusion recovery.
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PMID:Interrelations of T(1) and diffusion of water in acute cerebral ischemia of the rat. 1110 19


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