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)

This study was performed to determine whether long-chain acylcarnitines, specifically palmitoylcarnitine, could account for the increase in intracellular Na+ ([Na+]i) during ischemia eliciting a secondary increase in intracellular Ca2+ ([Ca2+]i). Accordingly, whole cell voltage-clamp procedures and Na(+)-sensitive electrode recordings were employed simultaneously in isolated adult rabbit ventricular myocytes to assess the relationship between activation of a slow-inactivating Na+ current [INa(s)] and a potential increase in [Na+]i. The [Na+]i increased progressively from 8.4 +/- 1.2 to 22.5 +/- 1.8 mM (n = 8, P < 0.01) on exposure to palmitoylcarnitine (10 microM) accompanied by the activation of INa(s); both effects were reversible. Inhibition of INa(s) by tetrodotoxin (TTX, 10 microM) inhibited the increase in [Na+]i. Increasing [Na+]i to 20 mM without ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA) to mimic effects measured with palmitoylcarnitine consistently elicited the transient inward current (Iti) and delayed afterdepolarizations (DADs). The percent inhibition (12.9 +/- 2.8%) of the Na(+)-K(+)-adenosinetriphosphatase pump activity by palmitoylcarnitine (10 microM) was much smaller than that induced by ouabain (10 microM, 90.5 +/- 2.5%), suggesting that this modest effect of palmitoylcarnitine on the pump is unlikely to account for the increase in [Na+]i induced by palmitoylcarnitine. Thus palmitoylcarnitine induces the INa(s) leading to an increase in [Na+]i, which elicits an increase in [Ca2+]i probably via the Na+/Ca2+ exchanger, thereby leading to the development of Iti and DADs.
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PMID:Palmitoylcarnitine increases [Na+]i and initiates transient inward current in adult ventricular myocytes. 761 93

Extended ischemia results in organ infarction which limits the availability of donor hearts. Hypothermic storage extends heart preservation by effectively stopping cellular metabolism, thereby preventing toxic accumulations of metabolic wastes and depletion of energy stores. However, cell swelling as a result of ion concentration changes and cell laceration due to ice crystal growth are consequences of hypothermic ischemia. Supercooling successfully preserves hearts for an extended time without associated myocardial necrosis. The efficacies of four supercooling preservative solutions, containing hypertonic glucose, polyethylene glycol, and or winter flounder antifreeze protein, are assessed using the Langendorff isolated organ perfusion apparatus and transmission electron microscopy. Polyethylene glycol seems the most effective in preventing myocardial necrosis possibly by dehydrating, minimizing cellular ice formation, protecting against cell swelling, and functioning as an antioxidant. Hypertonic glucose seems the most effective in reducing cell swelling; it may also depress solution freezing points, bind water, adjust both intra- and extracellular osmolarities, stabilize proteins, and assist in adenosine triphosphate (ATP) production. Antifreeze protein seems to bind effectively to ice and inhibit its growth; it may also reduce membrane permeabilities to Ca2+ and K+ ions.
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PMID:The effects of supercooling chemicals on myocardial ultrastructure: a transmission electron microscopy case study. 767 97

The effects of antioxidant drugs on retinal ischemia-reperfusion damage were studied by electroretinograms (ERGs) from reperfused Dutch rabbit eyes. After inducing retinal ischemia by increasing the intraocular pressure (IOP) up to 140 mmHg for 60 minutes, the reperfusion was started by lowering the IOP to the normal level. Mannitol, polyethylene glycol superoxide dismutase (PEG-SOD), or ascorbic acid was administered by drip-infusion to the rabbits immediately after (early group) or 1 hr after (delayed group) the start of reperfusion. Saline, as a control, was administered by the same method as the early group. The a- and b-waves were recorded before the ischemia and during the reperfusion. In the early group treated by each drug, the recovery rates of the b-wave amplitudes at 4 hrs after the start of reperfusion were significantly greater than those in the controls. In the delayed group, the ERG recovery rate in rabbits treated with PEG-SOD was significantly better than in the controls. These results indicated that all these drugs were effective in protecting from the retina from the ischemia-reperfusion damage, and that some antioxidant drugs might be effective even when they were administered after the start of reperfusion.
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PMID:[An electrophysiological study on the effect of antioxidant drugs against retinal ischemia-reperfusion damage]. 778 13

We performed the present study to clarify whether lecithinized superoxide dismutase (PC-SOD) enhanced its pharmacologic potency by increasing its cell membrane affinity. PC-SOD, in which 4 molecules of a phosphatidylcholine (PC) derivative were covalently bound to each dimer of recombinant human CuZn-SOD (rhCuZn-SOD), was shown to have a high membrane affinity using a laser confocal imaging technique. PC-SOD efficiently scavenged superoxide anion (O2-) produced by phorbol myristate acetate (PMA)-stimulated human neutrophils (IC50 0.60 U/ml), and it exerted a dose-dependent scavenging effect (IC50 1.27 U/ml) even when the neutrophils were washed after incubation with PC-SOD. In contrast, neither unmodified SOD nor polyethylene glycol-bound SOD (PEG-SOD) showed a scavenging effect for washed neutrophils, even at a high concentration (100 U/ml). PC-SOD also showed a strong protective effect against human vascular endothelial cell damage caused by O2- generated by stimulated neutrophils, and PC-SOD was approximately 100-fold more potent than unmodified SOD (in vitro IC50 100 U/ml for PC-SOD and > 10,000 U/ml for unmodified SOD). Moreover, PC-SOD (50,000 U/kg) had an inhibitory effect on ischemia-reperfusion paw edema in mice, whereas neither unmodified SOD nor PEG-SOD had any effect. These results suggest that PC-SOD (designed to target for cell membranes) exerted a far higher pharmacologic activity by increasing cell membrane affinity than unmodified SOD and may be potentially useful for various clinical applications.
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PMID:Lecithinized superoxide dismutase enhances its pharmacologic potency by increasing its cell membrane affinity. 799 83

Kidney preservation under mild hypothermic conditions (24 degrees C) was performed to preserve organs for a long time, to determine the viability of damaged organs, and to evaluate the viability of organs that have previously been stored in cold solution. Rabbit kidneys were perfused via the renal arteries. The perfusate was composed of glucose, allopurinol, PEG-SOD, adenosine, dexamethasone, insulin, HES and FC-43. This solution was an attempt to simulate the electrolyte constitution of extracellular fluid (pH 7.40 delta pH). The functions of all groups of kidneys were evaluated by measuring urine output, urine pH and urine electrolytes. The suitable perfusion pressure was 80 mmHg. The kidneys without a warm ischemic period were well stored and functioned for over 12 hours under 24 degrees C perfusion. In the warm ischemic groups, the viability and histological structure of the kidneys were well maintained and conditioned for 12 hours at up to 35 min of warm ischemia. The kidneys which were stored in 4 degrees C UW-solution for 24 hours had a good urination using mild hypothermic perfusion for 12 hours. This suggest that mild hypothermic perfusion will become a useful method for preserving the condition of organs and for determining and evaluating the viability of organs that have previously been stored in cold solution.
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PMID:[Experimental studies on functional preservation, conditioning and evaluation of the viability of rabbit kidneys utilizing mild hypothermic perfusion]. 805 26

The aim of this study was to optimize the properties of a lubricious bioerodible hydrogel barrier for the prevention of postoperative adhesions. Water-soluble macromers based on block copolymers of poly(ethylene glycol) (PEG) and poly(lactic acid) or poly(glycolic acid) with terminal acrylate groups were used, and these macromers were gelled in vivo by exposure to long wavelength ultraviolet light. The precursor was photopolymerized from buffered saline solution while in contact with the tissues. This resulted in the conformal coating of the tissue with an adherent hydrogel film, while forming a nonadhesive barrier at the free surface, on the treated wound site. The hydrogels were evaluated in two animal models of postsurgical adhesions, first in a rat cecum abrasion model and then in a rabbit uterine horn ischemia model. In the rat cecum model, six of seven animals treated with a hydrogel, with glycolide in the precursor as the comonomer, showed no adhesions; untreated animals and animals treated with precursor, but not gelled with light, showed consistent dense adhesions. In the rabbit uterine horn ischemia model, using hydrogels with lactide in the precursor as the comonomer, and PEG of molecular weight from 6,000 to 18,500 Da, adhesions were dramatically reduced, with occurrence in none of seven animals treated with a gel containing PEG 10,000. By contrast, the seven animals in the control group demonstrated a mean of 35% involvement of the horn length in dense, fibrous adhesions. These materials, photopolymerized in vivo in direct contact with the tissues, appear to form an adherent hydrogel barrier that is highly effective in reducing postoperative adhesions in the models used.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Optimization of photopolymerized bioerodible hydrogel properties for adhesion prevention. 808 51

We tested the hypothesis that administering polyethylene glycol-conjugated superoxide dismutase (PEG-SOD) either before global cerebral ischemia or at the time of reperfusion would alter recovery of cerebral blood flow (CBF; microspheres) response to alteration in arterial PCO2 in pentobarbital-anesthetized, mechanically ventilated piglets (1 to 2-wk old). CBF was measured at an arterial PCO2 of approximately 3.3, 5.3, and 8.7 kPa before and 2 h after ischemia (10 min aortic cross clamp). To determine the effect of preischemic versus postischemic treatment with PEG-SOD, each piglet received two i.v. drug injections of either 30,000 U PEG-SOD or an equal volume of PEG diluent in a randomized, blinded fashion before ischemia and just before reperfusion. Cerebral oxygen consumption and somatosensory evoked potentials were measured during reperfusion as an assessment of brain function. During reperfusion, no group demonstrated delayed hypoperfusion. Hypercapnic CBF was less during reperfusion (48 +/- 6 mL/min/100 g) compared with preischemia (69 +/- 10 mL/min/100 g) in PEG/PEG-treated piglets. However, hypercapnic CBF during reperfusion was not different from preischemic values with either preischemic or postischemic PEG-SOD treatment. Improved return of hypercapnic CBF in PEG-SOD-treated piglets was not attributable to improved postischemic cerebral oxygen consumption. Somatosensory evoked potential amplitude was decreased similarly during reperfusion (approximately 25% of preischemic values) in all groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Polyethylene glycol-conjugated superoxide dismutase improves recovery of postischemic hypercapnic cerebral blood flow in piglets. 825 89

Generation of free radicals during reperfusion after organ ischemia has been implicated in the pathogenesis of ischemic injury. We have previously shown that a combination of intravenous polyethylene glycol-conjugated superoxide dismutase (PEG-SOD) and catalase (PEG-CAT), at a dose of 10,000 U/kg each, is effective in reducing infarct size in a focal cerebral ischemia model in the rat. It is not clear whether PEG-SOD alone is sufficient to reduce ischemic brain injury. In this study we determined the therapeutic efficacy of PEG-SOD and its dose-response curve. In a range of 1,000-30,000 U/kg, PEG-SOD exhibited a U-shaped dose-response curve. Only 10,000 U/kg significantly reduced infarct size [control 121 +/- 12 mm3 (mean +/- SE), n = 35; PEG-SOD 95 +/- 10 mm3, n = 36, P < 0.05]. PEG-SOD at the doses tested did not have significant acute hemodynamic effects but had a tendency to improve postischemic hypotension. This beneficial effect of PEG-SOD on blood pressure did not appear to fully account for the treatment effect of PEG-SOD on infarct size. The narrow therapeutic dose range of PEG-SOD in this study and similar findings of SOD in other investigations may contribute to the inconsistent protective effects of SOD preparations in ischemia-reperfusion injury in the literature.
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PMID:Polyethylene glycol-conjugated superoxide dismutase in focal cerebral ischemia-reperfusion. 834 41

We employed hyperosmotic concentrations of penetrating cryoprotective agents (CPA) to store the isolated rat hearts unfrozen at subzero temperatures. The effect of acute exposure to CPA was assessed by flushing the hearts with CP-14, a cardioplegic solution, containing methanol (MeOH), ethanol (EtOH), ethylene glycol (EG), or propylene glycol (PG) for 2 min and reperfusing immediately with Krebs-Henseleit buffer in a working-heart model. The maximal doses that did not cause irreversible suppression of heart function were: MeOH, 1.78 M; EtOH, 1.27 M; EG, 0.84 M; and PG, 0.87 M. For nonfreezing storage, the hearts were flushed with CP-14 containing the highest tolerable concentrations of MeOH, EtOH, EG, or PG, stored for 6 h at -3.7, -2.8, and -1.4 degrees C, respectively, and then reperfused. Control cardiac output (CO) was 76.2 +/- 1.8 ml/min. Post-reperfusional recovery of CO was 86% in MeOH hearts, 82% in EtOH hearts, 76% in EG hearts, and 79% in PG hearts. Thus MeOH offered not only the least cardiac-suppressing effect but the lowest nonfreezing storage temperature. When storage time was extended, recovery and myocardial ATP level decreased with time in hearts flushed with CP-14 + 1.78 M MeOH and stored at -3.7 degrees C. The decay of function was faster than the decay of ATP level, suggesting energy was better preserved than function. The low return of function, however, may be related to CPA toxicity, osmotic stress, and ischemia/reperfusion injury. Nonfreezing storage at subzero temperatures using these CPAs may provide a novel approach to long-term cardiac preservation.
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PMID:Subzero nonfreezing storage of the mammalian cardiac explant. I. Methanol, ethanol, ethylene glycol, and propylene glycol as colligative cryoprotectants. 840 87

Electron paramagnetic resonance (EPR) spectroscopy was used to directly measure free radical generation in ischemic/reperfused diabetic rat retina. Tissue was frozen at 77 degrees K after 90 min ischemia, and 90 min ischemia followed by 1 min, 3 min, 5 min, and 24 hours reperfusion, respectively. After 90 min of ischemia followed by 1 min, 3 min, 5 min, and 24 hours of reperfusion (n = 10 in each group), free radical signal intensity was increased from its diabetic nonischemic control value of 12 +/- 3 arbitrary units to 58 +/- 6 (P < 0.05), 62 +/- 7 (P < 0.05), 32 +/- 5 (P < 0.05), and 14 +/- 4 arbitrary units, respectively. The peak intensity of free radical production was observed after 90 min ischemia followed by 3 min of reperfusion; therefore, this time point was selected to study the retinal free radical production in superoxide dismutase (conjugated with polyethylene glycol, PEG-SOD) and EGb 761 (Ginkgo biloba extract)-treated groups. With 7,500, 15,000, and 30,000 U/liter of SOD, and 25, 50, and 100 mg/kg of EGb 761, a dose-dependent reduction in oxygen free radical production was detected, respectively, which may be responsible for the attenuation of abnormal postischemic function in ischemic and reperfused diabetic retina.
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PMID:Direct measurement of free radicals in ischemic/reperfused diabetic rat retina. 929 50


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