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)

In situ splitting of cadaver livers has been reported to reduce cold ischemic damage, to avoid biliary complications, and to result in improved graft survival. In this study, which involved a wider application of split liver transplantation (SLT), we examined the effects of a technique combining both ex situ and in situ splittings in triple SLT in pigs and compared it to ex situ splitting alone. In the combination splitting group, the splitting between the right and left lobes was done in situ with perfusion of the left lobe with cold, lactated Ringer's solution; that between the lateral and medical right lobes was done ex situ in backtable surgery. The time required for in situ splitting was 28 +/- 5 min. The time for backtable surgery and the total ischemia time were significantly shorter in the combination splitting group than that in the ex situ splitting group (P < 0.05). One day after triple SLT, the elevations in both serum AST and LDH in the ex situ splitting group were significantly greater than those in the combination splitting group (P < 0.05). We conclude that combination splitting may provide a technical improvement and have a beneficial effect on the clinical application of triple SLT.
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PMID:Combination splitting using both in situ and ex situ techniques in triple split liver transplantation in pigs. 987 Feb 68

We investigated the efficacy of histidine on iron (II)-induced hydroxyl radical (.OH) generation in extracellular fluid of the rat myocardium using a flexibly mounted microdialysis technique (O system). Rats were anesthetized and a microdialysis probe was implanted in the left ventricular, followed by infusion of sodium salicylate in Ringer's solution (0.5 nmol/microL/min) to detect the generation .OH as reflected by the non-enzymatic formation of 2,3-dihydroxybenzoic acid (DHBA). Iron (II) clearly produced a concentration-dependent increase in .OH formation. A positive linear correlation between iron (II) and the formation of 2,3-DHBA (R2 = 0.987) was observed. However, histidine (25 mM) was infused through a microdialysis probe; iron (II) failed to increase the 2,3-DHBA formation obtained. To examine the effect of histidine on ischemia-reperfusion of the myocardium, the heart was subjected to myocardial ischemia for 15 min by occlusion of the left anterior descending coronary artery (LAD). When the heart was reperfused, a marked elevation of the levels of 2,3-DHBA was observed in the heart dialysate. When corresponding experiments were performed with histidine (25 mM)-pretreated animals, histidine prevented the ischemia-reperfusion induced .OH generation trapped as 2,3-DHBA. These results indicate that histidine protects the myocardium against ischemia-reperfusion damage by .OH generation.
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PMID:Protective effect of histidine on iron (II)-induced hydroxyl radical generation in rat hearts. 1039 76

Activated neutrophils have been implicated as playing an important role in ischemia/reperfusion injury of the liver by releasing toxic mediators such as oxygen free radicals and elastases. In the present study, we evaluated the effect of a novel, specific neutrophil elastase inhibitor (ONO-5046) on cold-ischemia/reperfusion injury of the liver allograft in rodents. Livers from male Lewis rats were procured and stored cold (4 degrees C) in lactated Ringer's solution and transplanted orthotopically. Recipients were divided into three groups: Vehicle group, 5-h preservation and vehicle (n = 8); ONO-5046 group, 5-h preservation and administration of ONO-5046 (n = 8); and Control group, minimum preservation only (n = 8). Bile output after reperfusion was significantly larger in the ONO-5046 group compared to the Vehicle group (P < 0.05 or less). Sinusoidal endothelial cell function represented by the serum hyaluronic acid concentration at 120 min after reperfusion of the ONO-5046 group was significantly lower than that in the Vehicle group (17.0 +/- 7.9 vs 36.2 +/- 14.9 ng/ml, P < 0.05), whereas serum transaminase levels 120 min after reperfusion were comparable between the two groups. Liver tissue energy charge 120 min after reperfusion was significantly better in the ONO-5046 group compared to the Vehicle group (P < 0.05). Furthermore, the number of neutrophils infiltrating the allograft after reperfusion was significantly depressed in the ONO-5046 group compared to the Vehicle group (P < 0. 02). These data suggest that the neutrophil elastase might cause liver damage early after reperfusion in cold-stored liver, which can be ameliorated by the administration of a specific neutrophil elastase inhibitor, ONO-5046.
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PMID:Effect of specific neutrophil elastase inhibitor on ischemia/reperfusion injury in rat liver transplantation. 1045 82

We investigated the efficacy of histidine on potassium-depolarization induced hydroxyl radical (*OH) generation in the extracellular fluid of rat myocardium by a flexibly mounted microdialysis technique (O system). After the rat was anesthetized, a microdialysis probe was implanted in the left ventricular myocardium, and then sodium salicylate in Ringer's solution (0.5 nmol/microl per minute) was infused to detect the generation of *OH as reflected by the nonenzymatic formation of 2,3-dihydroxybenzoic acid (DHBA). Infusion of KCl (70 mM) clearly produced an increase in *OH formation. However, when KCl in the presence of a high concentration of histidine (25 mM) was infused through the microdialysis probe, KCl failed to increase the 2,3-DHBA formation. To examine the effect of histidine on ischemia-reperfusion of the myocardium, the heart was subjected to myocardial ischemia for 15 min by occlusion of the left anterior descending coronary artery (LAD). When the heart was reperfused, a marked elevation of the levels of 2,3-DHBA was observed in the heart dialysate. However, when corresponding experiments were performed with histidine (25 mM)-pretreated animals, histidine prevented the ischemia-reperfusion induced *OH formation trapped as 2,3-DHBA. These results indicate that histidine may protect against K+-depolarization-evoked *OH generation in rat myocardium.
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PMID:Protective effect of histidine on hydroxyl radical generation induced by potassium-depolarization in rat myocardium. 1046 66

We used a flexibly mounted microdialysis technique to the hearts of rats and examined the protective effect of imidaprilat, an angiotensin-converting enzyme (ACE) inhibitor, on the production of hydroxyl free radical (*OH) generation. A microdialysis probe was implanted into the left ventricular myocardium, and dialysate norepinephrine (NE) concentrations were measured as an index of myocardial interstitial NE levels. Sodium salicylate in Ringer's solution (0.5 nmol/microl/min) was directly infused through a microdialysis probe to detect the generation of *OH reflected by the formation of dihydroxybenzoic acid (DHBA) in rat myocardium. When tyramine (1 mM) was directly infused through the microdialysis probe, the level of NE significantly increased in the dialysate and the level of NE increased by 128 +/- 43%. Imidaprilat (5, 25 and 50 microM) decreased the level of tyramine (1 mM)-induced NE in a concentration-dependent manner. Tyramine clearly produced an increase in *OH formation. In the presence of imidaprilat (50 microM), tyramine failed to increase both 2,3- and 2,5-dihydroxylation. Therefore, the effects of imidaprilat on the *OH generation in the sympathetic nerve blockaded hearts by reserpine treatment were not observed. Moreover, to examine the effect of imidaprilat on *OH formation by ischemia/reperfusion of the myocardium, the heart was subjected to myocardial ischemia for 15 min by occlusion of the left anterior descending coronary artery. When the heart was reperfused, elevation of NE and 2,3- and 2,5-DHBA in imidaprilat (50 microM)-pretreated animals was not observed in the heart dialysate. Imidaprilat 2.5 mg/kg i.p. pretreatment at 5 h before coronary occlusion significantly blunted the rise of serum creatine phosphokinase and improved the electrocardiogram 2 h after coronary occlusion. These results suggest that imidaprilat, an ACE inhibitor, is associated with cardioprotective effect due to the suppression of NE-induced *OH generation.
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PMID:Protective effect of imidaprilat, an angiotensin-converting enzyme inhibitor on *OH generation in rat myocardium. 1057 26

An extensive blood loss activates generalized inflammatory response. Abdominal organs and especially intestines are very sensitive to the ischemia-reperfusion insults due to hemorrhagic shock (HS) and blood volume restoration. Previously obtained results suggest that studies on peritoneal lavage fluid (PLF) can contribute to elucidation of inflammatory processes in abdominal organs in HS. Histamine (H) levels, total cell, and mast cell (MC) numbers, and MC ultrastructure in the fluid lavaged from peritoneal cavity were compared in the following groups of rats: control (gr. 1), sham operation (gr. 2), untreated hemorrhagic shock (gr. 3), shock treated with blood volume restoration with lactated Ringer's solution (LR) (gr. 4), shock treated with platelet activating factor (PAF)-receptor antagonist Ginkgolide B (BN52021), and LR (gr. 5). A shock-related significant increase in total cell numbers, MC numbers, MC degranulation, and histamine levels in PLF were observed. The restoration of blood volume caused further elevation of the above phenomena (gr. 4) while BN52021 seemed to inhibit peritoneal MC mobilization and degranulation as well as to attenuate increase in peritoneal H level (gr. 5). The peritoneal cavity is a place of rapid and strong reaction to hemorrhage. Evaluation of peritoneal histamine levels might be helpful in the monitoring of shock dependent intra-abdominal processes. Peritoneal MC mobilization and degranulation, and increase in histamine level is inhibited by BN52021.
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PMID:BN52021 inhibits activation of peritoneal mast cells caused by hemorrhage and blood volume restoration. 1072 Dec 66

Complement plays a decisive role in postischemic tissue injury, a process responsible for severe damage after organ ischemia. Several pathophysiologic mechanisms initiated upon reperfusion are mediated by complement inducing microcirculatory disturbances. Here, we demonstrate the effects of complement inhibition using C1-esterase inhibitor (C1-INH) on microcirculation after liver ischemia by in vivo microscopy (IVM). In rats, the left liver lobe was clamped for 70 min. C1-INH was given 1 min prior to reperfusion. Controls received Ringer's solution. IVM was performed 30-100 min after reperfusion. Non-perfused acini decreased and sinusoidal perfusion increased substantially after treatment. Leukocyte adherence to sinusoidal and venular endothelium was markedly reduced by C1-INH. Transaminases were significantly decreased by C1-INH. Our data obtained by IVM suggest that complement activation is an early key event of ischemia/reperfusion injury. These observations demonstrate for the first time that reperfusion related microcirculatory disorders can be minimized by C1-INH. This compound should be evaluated in clinical application.
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PMID:In vivo microscopy reveals that complement inhibition by C1-esterase inhibitor reduces ischemia/reperfusion injury in the liver. 1111 70

Hemorrhage and thrombosis are associated with major vascular and trauma surgery. Release of heparinoids and thrombotic mediators may contribute to these complications and have been described in rabbits after aortic occlusion-reperfusion. We hypothesized that the resuscitative fluid used could reduce heparinoid and thrombotic mediator release after aortic occlusion-reperfusion in rabbits as assessed by thromboelastographic variables (R, reaction time; alpha, angle; and G, a measure of clot strength). Anesthetized rabbits were administered lactated Ringer's solution (n = 8) or PentaLyte (n = 8) at reperfusion after 30 min of ischemia. Blood was obtained before ischemia and after 30 min of reperfusion for thromboelastography under four conditions: 1) unmodified sample, 2) platelet inhibition, 3) heparinase, and 4) platelet inhibition and heparinase. During reperfusion, unmodified samples demonstrated a significant increase in R and decrease in alpha and G that was not affected by PentaLyte. In the presence of heparinase, no significant fluid-specific thromboelastographic differences were noted. However, thrombotic mediator release (discerned by a decrease in R and an increase in alpha) during reperfusion in samples with platelet inhibition and heparinase was significantly attenuated by PentaLyte. PentaLyte administration does not decrease heparinoid release but does decrease thrombotic mediator release after aortic occlusion-reperfusion.
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PMID:Pentalyte does not decrease heparinoid release but does decrease circulating thrombotic mediator activity associated with aortic occlusion-reperfusion in rabbits. 1115 22

We examined the effect of fluvastatin, a 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitor, on the production of hydroxyl radical (*OH) generation via nitric oxide synthase (NOS) activation by an in vivo microdialysis technique. The microdialysis probe was implanted in the left ventricular myocardium of anesthetized rats and tissue was perfused with Ringer's solution through the microdialysis probe at a rate of 1 microl/min. Sodium salicylate in Ringer's solution (0.5 nmol/microl/min) was infused directly through a microdialysis probe to detect the generation of *OH. Induction of [K(+)](o) (70 mM) or tyramine (1 mM), significantly increased the formation of *OH trapped as 2,3-dihydroxybenzoic acid (DHBA). The application of N(G)-nitro-L-arginine methyl ester (L-NAME), a NOS inhibitor, significantly decreased the K(+) depolarization-induced *OH formation, but the effect of tyramine significantly increased the level of 2,3-DHBA. When fluvastatin (100 microM), an inhibitor of low-density lipoprotein (LDL) oxidation, was administered to L-NAME-pretreated animals, both KCl and tyramine failed to increase the level of 2,3-DHBA formation. The effect of fluvastatin may be unrelated to K(+) depolarization-induced *OH generation. To examine the effect of fluvastatin on ischemic/reperfused rat myocardium, the heart was subjected to myocardial ischemia for 15 min by occlusion of the left anterior descending coronary artery (LAD). When the heart was reperfused, a marked elevation of the level of 2,3-DHBA was observed. However, in the presence of fluvastatin (100 microM), the elevation of 2,3-DHBA was not observed in ischemia/reperfused rat heart. Fluvastatin, orally at a dose of 3 mg/kg/day for 4 weeks, significantly blunted the rise of serum creatine phosphokinase and improved the electrocardiogram 2 h after coronary occlusion. These results suggest that fluvastatin is associated with a cardioprotective effect due to the suppression of noradrenaline-induced *OH generation by inhibiting LDL oxidation in the heart.
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PMID:Effect of fluvastatin, an inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A reductase, on nitric oxide-induced hydroxyl radical generation in the rat heart. 1133 4

Recent observations provide evidence that complement is implicated as an important factor in the pathophysiology of ischemia/reperfusion injury (IRI). Here, we assessed the effects of complement inhibition on hepatic microcirculation by in vivo microscopy (IVM) using a rat model of warm hepatic ischemia clamping the left pedicle for 70 min. Ten animals received the physiological complement regulator soluble complement receptor type 1 (sCR1) intravenously 1 min prior to reperfusion. Controls were given an equal amount of Ringer's solution (n = 10). Microvascular perfusion and leukocyte adhesion were studied 30 to 100 min after reperfusion by IVM. Microvascular perfusion in hepatic sinusoids was significantly improved in the sCR1 group (80.6 +/- 0.6% of all observed sinusoids were perfused [sCR1] vs 67.3 +/- 1.2% [controls]). The number of adherent leukocytes was reduced in sinusoids (49.9 +/- 3.4 [sCR1] vs 312.3 +/- 14.2 in controls [adherent leukocytes per square millimeter of liver surface]; P < 0.001) as well as in postsinusoidal venules after sCR1 treatment (230.9 +/- 21.7 [sCR1] vs 1906.5 +/- 93.5 [controls] [adherent leukocytes per square millimeter of endothelial surface]; P < 0.001). Reflecting reduced hepatocyte injury, liver transaminases were decreased significantly upon sCR1 treatment compared to controls. Our results provide further evidence that complement plays a decisive role in warm hepatic IRI. Therefore, we conclude that complement inhibition by sCR1 is effective as a therapeutical approach to reduce microcirculatory disorders after reperfusion following warm organ ischemia.
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PMID:Impact of inhibition of complement by sCR1 on hepatic microcirculation after warm ischemia. 1167 31

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