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)

The concept of cytoprotection has been applied to many tissues afforded protection by drugs or endogenous chemicals against organelle, cyto- or histopathologic damage. We review here the "organoprotection" by lidocaine in rats and dogs as appraised by in vitro, ex vivo, and in vivo experiments with the stomach and heart, and as revealed at organelle to organ functional levels. Gastric mucosal lesions induced by 80% ethanol with 100 mM HCl on the ex vivo rat stomach were significantly reduced by lidocaine (2.2-4.4 mg/kg bolus followed by 66-132 micrograms/kg/min i. v. infusion). In anesthetized dogs with gastric corporeal lesions induced by increased gastric intraluminal pressure (50 mm Hg, 2.5 hrs), lidocaine (2.2 mg/kg bolus plus 66 micrograms/kg/min infusion) significantly reduced lesion severity. In the isolated rat heart, reperfusion after a 60 min period of ischemia induced localized cardiac mitochondrial swelling and disruption in ventricular apices which was greatly reduced if hearts were pretreated (15 min perfusion with lidocaine). In intact rats subjected to hemorrhagic shock, lidocaine pretreatment also facilitated shock resuscitation and reduced ultrastructural damage. In these diverse experiments, lidocaine organoprotection was likely mediated in part through reduction of ischemia induced organelle membrane damage and through reduction of reperfusion-induced superoxide and other oxygen-derived free radical related damage.
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PMID:Gastric and cardiac organoprotection by lidocaine. 259 5

This study was designed to determine whether oxygen-derived free radicals play a role in the pathogenesis of gastric lesions produced by hemorrhagic shock in the rat. Allopurinol (Zyloric), an inhibitor of xanthine oxidase (responsible for the formation of superoxide radicals) and MTDQ-DA (Kontrad), a synthetic antioxidant of dihydroquinoline type were used. In the anesthetized rat 0.1 N HCl was instilled into the stomach and the rat was bled to reduce the blood pressure to 30 mmHg for 20 min. The blood shed was retransfused. Twenty min later the stomach was removed. The area of gastric mucosal lesions were measured, the activity of endogenous peroxidase was examined histochemically and a histological grading was made. Both allopurinol and MTDQ-DA significantly protected against hemorrhagic shock-induced gastric lesions and peroxidation. These results suggest that oxygen-derived free radicals play an important role in the formation of gastric lesions produced by ischemia plus 0.1 N HCl.
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PMID:Role of oxygen-derived free radicals in hemorrhagic shock-induced gastric lesions of rats. 259 23

The membrane potential and input resistance of mouse astrocytes in primary cultures were measured with two-channel microelectrodes. It was found that 30 mM sodium lactate (no pHo change) caused a hyperpolarization of 5 mV. A stepwise reduction in pH via HCl addition had no effect at pHo 6.5, at pHo 5.5 there was a 5 mV depolarization and at pHo 4.5 the membrane depolarized by 28 mV and the input resistance increased by 4.9-times. After 20 min this change was still reversible. If the pHo was lowered by the addition of lactic acid, a pHo of 4.5 (30 mM lactic acid) caused a 45 mV depolarization and a 4.3-times increase in input resistance. Exposure to these conditions caused irreversible effects. The exposure time for a 50% recovery of the membrane potential was 15 min. The results show that external acidification (for a period of 20 min) is only irreversible if lactate is present, probably due to excessive H+ shifts into the cells via the H+-lactate carrier. The results are of significance to explain glial damage during incomplete ischemia.
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PMID:Resistance of astrocyte electrical membrane properties to acidosis changes in the presence of lactate. 259 18

The effect of lumbar epidural anesthesia on myocardial wall motion was compared in two groups of patients using precordial two-dimensional echocardiography (2DE). All patients were scheduled to undergo lower abdominal or peripheral surgery. Group 1 included five healthy ASA PS 1 subjects and group 2 included 10 patients with coronary artery disease (CAD). In all patients 12.5 ml of 2% lidocaine HCl was injected into the lumbar epidural space, and systolic and diastolic blood pressures, and heart rate were continuously monitored. 2DE evaluation was performed before and at 10, 20, 30, and 60 min (T10-T60) after epidural lidocaine injection. The left ventricular wall was divided into 16 segments for parasternal long-axis, short-axis and apical four-chamber views. The wall motion of each segment was graded on a scale from 1 (dyskinesia) to 6 (hyperkinesia), with 5 representing normal motion. A decrease in segmental wall motion greater than or equal to 2 grades was considered indicative of ischemia. Plasma lidocaine and catecholamine levels were measured before and 10, 20, and 60 min after epidural lidocaine injection. Peak plasma lidocaine levels in groups 1 and 2 were 2.79 +/- 1.06 micrograms/ml (mean +/- SD) and 2.58 +/- 1.48 micrograms/ml at 10 min, respectively (NS). Plasma epinephrine and norepinephrine levels were unchanged from baseline. Systolic pressures decreased significantly in group 2 from T10 to T60. Diastolic pressure decreased significantly in the same group from T20 to T60, and in group 1 only at T10. Mean arterial pressure decreased significantly in both groups at T30, without change in heart rate.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Abnormalities in myocardial segmental wall motion during lumbar epidural anesthesia. 229 27

Published evidence suggests that ischemia-induced cell swelling renders myocytes vulnerable to plasmalemmal disruption and consequent cell death. Alterations to the myocyte cytoskeleton may be involved in the pathogenesis of this plasmalemmal injury. One putative cytoskeletal structure in cardiac muscle that has received little consideration is the subplasmalemmal network of periodic densities with linking microfilaments termed leptomeres or leptofibrils. We demonstrate these structures in dog heart papillary muscle and describe the improvement in their definition brought about by tissue fixation at 37 degrees C in 2% glutaraldehyde with addition of 0.05 M lysine-HCl, followed by brief postfixation with osmium tetroxide. Alterations to leptomeres during ischemic injury were examined in myocardium subjected to total in vitro ischemia for 30-180 min at 37 degrees C. Leptomeres showed little morphological alteration during the first 90-120 min, after which leptomere periodic densities (striae) increased in size, from 10-20 to 50-80 nm, and were more densely stained. The leptomeres eventually (150-180 minutes) lose definition. The course of these alterations coincided with the appearance of ultrastructural evidence of irreversible ischemic injury to the myocytes.
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PMID:Alterations to subplasmalemmal leptomeres in adult canine myocytes during total in vitro ischemia. 275 77

This study was designed to determine whether oxygen-derived free radicals play a role in the pathogenesis of gastric lesions produced by hypotensive ischemia in the rat. To achieve this goal, allopurinol, an inhibitor of xanthine oxidase (the enzyme responsible for the formation of superoxide radicals); superoxide dismutase, a scavenger of superoxide radicals (O2-); and dimethyl sulfoxide, a scavenger of hydroxyl radicals (OH) were used. In the anesthetized rat, HCl (0.1 N) was instilled into the pylorus-ligated stomach, and the rat was bled to reduce the blood pressure to less than 30 mmHg. The blood pressure was maintained at less than 30 mmHg for 20 min and then the shed blood was retransfused. Twenty minutes after the retransfusion the rat was killed, the stomach was removed, and the area of gastric mucosal lesions was measured. Both allopurinol and superoxide dismutase, but not dimethyl sulfoxide, significantly protected against hemorrhagic shock-induced gastric lesions. These findings suggest that oxygen-derived free radicals, particularly O2-, play an important role in the formation of gastric lesions produced by ischemia plus HCl.
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PMID:Role of oxygen-derived free radicals in hemorrhagic shock-induced gastric lesions in the rat. 298 78

The dissolution of infarcted myocardium occurs after the infiltration of leukocytes. In the search for a mechanism of the leukocyte infiltration, we measured the production of lipoxygenase metabolites of arachidonic acid in the canine myocardium after ligation of the circumflex branch of the left coronary artery. At least 2 lipoxygenase products, namely 5- and 12-hydroxyeicosatetraenoic acids (HETEs), were augmented in myocardium subjected to ischemia lasting more than 6 hours, with levels of the latter being raised much more than the former. Augmentation of the HETEs in ischemic myocardium appeared to occur prior to any significant infiltration of leukocytes. More than 12 hours after coronary ligation, the infiltration of leukocytes became prominent and an increase in 12-HETE was observed. Calcium content in the infarcted myocardium appeared to be increased several hours before the increase in 12-HETE. These data suggest that the initial increment in 12-HETE may result from it being a product of infarcted myocardium, where Ca2+ is accumulated in the cell, and that the increased HETEs work as a leukocyte chemoattractant in infarcted myocardium. This hypothesis is supported by the independent experiment which showed that cultured cardiomyocytes produced lipoxygenase metabolites of arachidonic acid, including 12-HETEs etc, which exhibited neutrophil-chemoattractant activity when they were challenged by calcium ionophore and/or arachidonic acid. Azelastine-HCl, a lipoxygenase inhibitor, attenuated not only the above production of HETEs from the cardiomyocytes, but also production of HETEs and infiltration of neutrophils in ischemic myocardium, resulting in attenuation of the fibrous scar of infarcted myocardium.
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PMID:Augmentation of eicosanoids in ischemic heart muscle in dogs: its role in the deterioration of the ischemic lesion. 314 56

Intracellular pH (pHi) was measured with proton-sensitive liquid sensor microelectrodes in isolated Necturus antral mucosa, paying special attention to arranging experimental conditions to simulate conditions frequently associated with in vivo "stress ulceration." Intracellular pH in mucosas perfused under standard conditions (Ringer's solution containing HCO3-/CO2) was 7.22 + 0.02 (n = 27). Removal of Na+ and HCO3- or addition of amiloride or 4-acetamido-4-isothiocyanostillbene-2,2-disulfonic acid (blockers of Na+/H+ and Cl-/HCO3-exchangers) had no influence on steady-state pHi, suggesting that these ion exchangers do not significantly contribute to the maintenance of pHi in the presence of normal external pH. Acidification of mucosal (luminal) perfusate to pH 3 (mimicking the presence of gastric acid) had no influence on pHi, but mucosal pH 2 (10 mM HCl) acidified pHi to 6.93 +/- 0.07. Acidification of serosal (nutrient) perfusate to pH 6 (mimicking intramucosal acidosis caused by back-diffusion of luminal H+) acidified pHi to 6.72 +/- 0.10. Removal of Na+ from and addition of amiloride to the serosal perfusate during exposure to serosal pH 6.0 induced further acidification of pHi, suggesting that in this acidotic situation (with very low ambient HCO3- concentration) a Na+/H+ exchanger does contribute to the maintenance of steady-state pHi. Increased PCO2 (10% vol/vol in the gas) in a slightly acidic milieu (mimicking mucosal ischemia) likewise acidified pHi to 6.73 +/- 0.05. A combination of mucosal acid (pH 3), high PCO2 (10% CO2), and low serosal pH (pH 6) (mimicking conditions that prevail, for example, during hemorrhagic shock) acidified pHi and ultimately resulted in cell death. These derangements of intracellular acid-base balance may have pathogenetic importance also in in vivo stress ulceration.
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PMID:Intracellular pH in isolated Necturus antral mucosa in simulated ulcerogenic conditions. 316 88

There is increasing evidence that the use of cocaine can trigger lethal cardiac events, including ventricular fibrillation. The mechanism responsible for these lethal cardiac arrhythmias remains to be determined. Therefore, 13 mongrel dogs were instrumented so that heart rate, left ventricular pressure (LVP), and d(LVP)/dt could be measured. After a 3- to 4-wk recovery period, the left circumflex coronary artery was occluded for 2 min, beginning with the last minute of an exercise stress test and continuing for 1 min after the cessation of exercise. None of the dogs developed cardiac arrhythmias during the control exercise plus ischemia test. On a subsequent day, the test was repeated after the injection of cocaine HCl (1.0 mg/kg). Cocaine significantly (P less than 0.01) elevated heart rate, systolic LVP, and d(LVP)/dt, and it elicited cardiac arrhythmias in 12 of the 13 animals during the exercise plus test. In fact, 11 animals developed ventricular fibrillation. Verapamil, a calcium channel antagonist (250 micrograms/kg), attenuated the hemodynamic effects of cocaine and prevented the development of ventricular arrhythmias. These data suggest that cocaine can induce ventricular fibrillation during myocardial ischemia and that these lethal arrhythmias may be prevented by a calcium channel antagonist.
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PMID:Cocaine-induced ventricular fibrillation: protection afforded by the calcium antagonist verapamil. 318 53

The separate roles of exogenous acid, ischemia, and retransfusion of shed blood on gastric lesion formation in the rat hemorrhagic shock model were studied. In addition, the role of oxyradicals in lesion formation in this model was studied. Intragastric HCl increased gastric mucosal lesion formation in a dose-dependent manner. Even in the absence of intragastric HCl, ischemia followed by retransfusion of shed blood caused histologic mucosal injury in the corpus and antrum. Allopurinol, a xanthine oxidase inhibitor that prevents oxyradical formation, slightly, but significantly, reduced the gastric mucosal injury induced by ischemia-reperfusion but not that induced by ischemia alone. There was no significant difference in the extent of damage caused by ischemia-reperfusion and ischemia alone. We conclude that exogenous acid, ischemia, and oxyradical formation after retransfusion of shed blood are all important interacting factors in the rat hemorrhagic shock model of gastric mucosal injury. Allopurinol, by inhibiting formation of the oxyradical component, significantly protects against the injury.
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PMID:Role of exogenous acid and retransfusion in hemorrhagic shock-induced gastric lesions in the rat. 335 Feb 82


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