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 relation between the accumulation of pyrophosphate and technetium-99m in myocardium with reversible and irreversible ischmic injury was studied in dogs subjected to transitory or persistent coronary arterial occlusion. Among four dogs with coronary occlusion maintained for less than 20 minutes, none had either increased MB creatine kinase (CK) (the "myocardial" CK isoenzyme) activity serum or a positive 99mTc stannous pyrophosphate image. Seven dogs with coronary occlusion maintained for 30 or more minutes had elevated serum MB CK activity, and five of the seven had positive (abnormal) images. Thus, although false negative images may occur occasionally despite myocardial damage, both increased serum MB CK and abnormal images generally accompanied prolonged coronary occlusion. In contrast, ischemia without infarction was not associated with abnormal images. Both 99mTc and 32P labeled pyrophosphate were accumulated extensively and proportionally in myocardium from zones of infarction, and uptake of both tracers was comparable although modest in isolated mitochondria. Similar results were obtained after myocardial infarction in animals with induced profound leukopenia. Thus, phagocytosis of the radiopharmaceutical agent by leukocytes migrating into the infarct is not an essential mechanism accounting for uptake. These results indicate that abnormal images reflect uptake of pyrophosphate, associated with 99mTc, by irreversibly injured myocardium rather than leukocytic infiltration involved in the inflammatory response in the heart.
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PMID:Mechanisms contributing to myocardial accumulation of technetium-99m stannous pyrophosphate after coronary arterial occlusion. 18 32

We have previously demonstrated that reperfusion of a rabbit lung in vivo after 24 h of unilateral pulmonary artery occlusion results in edema, transient leukopenia, and intravascular leukocyte aggregation. We hypothesized that complement was activated by reperfusion and that this in turn contributed to lung injury. In the preliminary phase of the study, we found that ischemia followed by reperfusion resulted in a drop in C3 to 15 +/- 10% (mean +/- SEM) of the prereperfusion value as compared with no change in a group of control animals that had undergone an identical thoracotomy but without pulmonary artery occlusion and reperfusion (p less than 0.05). We then studied three groups of animals to determine if complement depletion with cobra venom factor (CVF) prior to ischemia and reperfusion would prevent the injury. Rabbits treated with CVF but without occlusion and reperfusion did not develop significant lung edema, with left and right lung wet/dry ratios of 5.32 +/- 0.11 and 5.26 +/- 0.12, respectively. For rabbits that were not treated with CVF but underwent ischemia and reperfusion, the comparable numbers were 6.15 +/- 0.36 and 5.19 +/- 0.32 (p less than 0.05 for right versus left). For CVF-treated rabbits that underwent ischemia and reperfusion, the right/left difference persisted (6.77 +/- 0.48 versus 5.35 +/- 0.14, p less than 0.01). Immunocytochemistry documented C3 deposition in non-CVF rabbits that underwent ischemia and reperfusion but not in CVF-treated rabbits. We conclude that ischemia/reperfusion of the lung results in complement activation, but it is not a complement-dependent injury.
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PMID:Complement activation is a secondary rather than a causative factor in rabbit pulmonary artery ischemia/reperfusion injury. 199 Sep 58

Obstruction of pulmonary arterial blood flow results in minimal biochemical and/or morphological changes in the involved lung. If the lung is reperfused, a syndrome of leukopenia and lung edema occurs. We used the radiolabeled microsphere technique to measure the response of the bronchial circulation in rabbits to acute pulmonary artery occlusion (PAO) and to pulmonary artery reperfusion. We found that the bronchial blood flow (Qbr) decreased from a base line of 0.37 +/- 0.10 to 0.09 +/- 0.04 (SE) ml.min-1.g dry lung-1 (P less than or equal to 0.05) after 4 h of PAO. In a separate group of animals, Qbr 24 h after PAO remained low (0.20 +/- 0.07 ml.min-1.g dry lung-1, P = 0.06). Qbr during PAO was inversely correlated with the wet-to-dry ratio after reperfusion (r = -0.68, P = 0.06). Qbr did not change during 4 h of reperfusion. We speculate that a critical level of Qbr may be necessary during PAO to prevent ischemia/reperfusion injury from occurring.
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PMID:Bronchial circulation in pulmonary artery occlusion and reperfusion. 231 50

Microvascular permeability changes (using FITC-dextran 150 clearance as an index) produced by ischemia-reperfusion (I-R) were investigated in the rat cremaster muscle. I-R produced significant sustained increases in microvascular permeability to macromolecules. Pretreatment with dexamethasone and verapamil reduced this I-R effect. Leukopenia also afforded protection to the microcirculation. It was concluded that changes occurring during ischemia are major causative components of the ischemia-reperfusion damage.
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PMID:Effects of ischemia-reperfusion injury on microvascular permeability in skeletal muscle. 248 89

Abdominal aortic aneurysmectomy (AAA) results in thromboxane (Tx)A2 generation, a rise in mean pulmonary artery pressure (MPAP), leukopenia, and noncardiogenic pulmonary edema. This study tests whether mannitol, a hydroxyl radical scavenger, modifies these events. Patients received mannitol 0.2 g/kg (n = 14) or saline (n = 12) intravenously before infrarenal aortic clamping. With saline, 30 minutes after clamping, plasma TxB2 levels rose from 124 to 290 pg/mL (p less than 0.01), and MPAP rose from 19 to 27 mmHg (p less than 0.01). Aortic clamp release led to further increases in plasma TxB2 to 378 pg/mL (p less than 0.01) and MPAP to 34 mmHg (p less than 0.01). The white blood count (WBC) fell from 9800 to 4400/mm3 (p less than 0.01). Four to eight hours after surgery, physiologic shunting (Q[sc]S[xsc]/Q[sc]T[xsc]) rose from 9% to 20% (p less than 0.01) and peak inspiratory pressure (PIP) increased from 22 to 32 cmH2O (p less than 0.01). Chest radiography demonstrated pulmonary edema while the pulmonary wedge pressure was 12 mmHg, excluding left ventricular failure. By 24 hours pulmonary edema resolved and the PIP and PaO2 returned to baseline. Mannitol treatment relative to saline, during and after aortic clamping reduced plasma TxB2 levels to 155 and 198 pg/mL, respectively (p less than 0.01); MPAP to 21 and 26 mmHg (p less than 0.01); minimized the decline in WBC to 5850/mm3 (p less than 0.01), and the postoperative rise in Q[sc]S[xsc]/Q[sc]T[xsc] to 12%, and PIP to 28 cmH2O (both p less than 0.01). Chest radiography showed no pulmonary edema. Finally in vitro studies documented that mannitol 1 to 10(-4)M, but not dextrose, in a dose-dependent manner inhibited Tx synthesis by ADP-activated platelets. These data indicate that mannitol maintains pulmonary function after AAA by limiting ischemia-induced thromboxane synthesis.
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PMID:Pulmonary edema after aneurysm surgery is modified by mannitol. 1257 26

Neutrophils accumulate in myocardium rendered ischemic and reperfused. Activated neutrophils release mediators such as metabolites of oxygen that can compromise myocellular integrity and provoke cardiac dysfunction. Although it is established that leukopenia reduces infarct size, the role of leukocytes and the source of free radicals in postischemic contractile dysfunction is unresolved. A carotid left anterior descending coronary-artery extracorporeal circuit without (n = 8) or with a Leukopak filter (n = 6) to deplete the leukocytes and platelets from blood entering the left anterior descending artery was established in the anesthetized, open-chest dog 30 minutes before ischemia. Subendocardial segmental function was monitored by sonomicrometry, and ischemia was produced by stopping flow for 15 minutes followed by 3 hours of reperfusion. Depleting leukocytes by 90 +/- 3.2% and platelets by 100% improved segmental function (from 30.5 +/- 7% to 74.1 +/- 12.7% for control versus leukocyte-depleted dogs, respectively) at 15 minutes of reperfusion. In the leukopenic group, however, there was a progressive decline in contractility to 32.5 +/- 13.8% by 3 hours of reperfusion that was associated with a return of leukocytes and, to a lesser extent, a return of platelets in the extracorporeal blood to 70.2 +/- 21.9% and 15.5 +/- 4.3% of systemic values, respectively. Removal of leukocytes and platelets from blood perfusing the coronary vascular bed only at reperfusion improved contractile function to 67.7 +/- 6.9% at 15 minutes and 54.7 +/- 12.1% at 3 hours (n = 6). Scanning electron microscopy revealed adherent leukocytes in the epicardial coronary arteries of control animals after 3 hours of reperfusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alleviation of myocardial stunning by leukocyte and platelet depletion. 259 41

These experiments evaluated the leukocyte as a potential source of oxygen free radical (OFR) generation during reperfusion injury in post-ischemic skeletal muscle. The infrarenal aorta of heparinized Sprague-Dawley rats was clamped for 90 min, declamped, and reperfused for 60 min. Hindlimb muscle resting transmembrane potential difference (Em) and high-energy phosphate content were determined at base line, during ischemia, and on reperfusion. Four groups were studied: a control group, a second group receiving superoxide dismutase and catalase (SOD + CAT) on declamping, a third group receiving dimethylmyleran (DMM) 7 days before the experiment to obtain a selective leukopenia (white blood cells = 1,210 +/- 144/mm3, neutrophils = 1.2%), and a fourth group pretreated with allopurinol (ALLO). During the ischemic period, resting Em was significantly depolarized (-78.6 +/- 0.5 mV from -90.3 +/- 0.3; P less than 0.05) in the control group, whereas creatine phosphate (CP) was depleted and ATP maintained. Data collected during the ischemic phase of the three other groups were similar to the control group (P = NS). On reperfusion, persistent depolarization of resting Em was observed despite restoration of muscle CP content in the control and ALLO groups (-75.4 and -77.0 mV, respectively). In contrast, significant repolarization of resting Em was noted after reperfusion in the SOD + CAT and DMM groups (-86.5 and -88.6 mV, respectively). These data implicate leukocyte-generated OFR as mediators of reperfusion-associated cellular membrane injury in postischemic skeletal muscle.
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PMID:Role of leukocytes in reperfusion injury of skeletal muscle after partial ischemia. 280 69

Limb ischemia in experimental animals leads to white blood cell (WBC) and thromboxane (Tx)A2 dependent pulmonary dysfunction. This study examines the pulmonary sequelae of lower torso ischemia in 20 consecutive patients aged 63 +/- 5 years (mean +/- SEM) who underwent elective abdominal aortic aneurysm surgery. After 30 minutes of aortic cross-clamping, plasma TxB2 levels had risen from 77 +/- 26 pg/ml to 359 +/- 165 pg/ml (p less than 0.01) and was temporally related to increases in mean pulmonary artery pressure (MPAP) from 18 +/- 1 to 23 +/- 3 mmHg (p less than 0.01), as well as to increases in pulmonary vascular resistance (PVR) from 0.07 +/- 0.02 to 0.12 +/- 0.02 mmHg sec/ml (p less than 0.01). Each time that the aortic clamp was repositioned and with final declamping, after 83 +/- 10 minutes, there were further increases in MPAP to a peak of 32 +/- 2 mmHg (p less than 0.01) and in PVR to 0.26 +/- 0.030 mmHg sec/ml (p less than 0.01), corresponding to a plasma TxB2 level of 406 +/- 177 pg/ml (p less than 0.01). MPAP and PVR returned to baseline values within 30 minutes of declamping. Ten minutes after removal of the aortic clamp, platelet levels had fallen from 180 +/- 41 to 97 +/- 17 X 10(3)/mm3 (p less than 0.01) and WBC levels from 8900 +/- 1100 to 4700 +/- 400/mm3 (p less than 0.01). Both platelets and WBC returned towards normal levels, but at 24 hours, while WBC was elevated at 13000 +/- 900/mm3 (p less than 0.01), platelets were 44% of baseline at 135 +/- 14 X 10(3)/mm3 (p less than 0.01). Four to 8 hours after surgery, pulmonary dysfunction was manifest by increases in physiologic shunt from 9 +/- 2% to 16 +/- 2% (p less than 0.01), and peak inspiratory pressure (PIP) from 23 +/- 2 to 33 +/- 2 cmH2O (p less than 0.01). Chest radiography demonstrated interstitial pulmonary edema in all patients, whereas pulmonary artery wedge pressure was 12 +/- 2 mmHg, excluding the possibility of left ventricular failure. After 24 hours, pulmonary edema had resolved, and the PIP and PaO2 had both returned to baseline. These data indicate that reperfusion of the ischemic lower torso leads to the synthesis of TxA2, an event temporally related to pulmonary hypertension and transient leukopenia with subsequent pulmonary microvascular injury manifest by interstitial edema.
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PMID:Noncardiogenic pulmonary edema after abdominal aortic aneurysm surgery. 291 66

Leukocytes contribute to myocardial damage during ischemia and reperfusion. However, the mechanism involved has not been clearly elucidated. The purpose of the present study was to determine whether leukocyte-induced myocardial damage is flow mediated. In open-chest dogs submitted to 2 hours of ischemia, area at risk, infarct size, and regional myocardial blood flow before, during, and after ischemia were measured. Leukopenia was induced by a two-step method (chemotherapy and antineutrophil serum) in a group of 14 dogs as compared to a control group of 18 dogs. The relation of infarct size to the major determinants of infarct size was analyzed by uni- and multilinear regressions. Seven control dogs had ventricular fibrillation at reperfusion compared to one dog with leukopenia. In the group with leukopenia the mean infarct size was smaller (31.1 +/- 5.8% of area at risk) than in the control group (47.7 +/- 2.9, p = 0.02). In addition, the two multiple linear regression equations were significantly different (p = 0.01). Myocardial blood flow to the central ischemic zone did not change significantly between 20 and 120 minutes of ischemia in the control dogs (n = 12; subendocardial = 0.08 +/- 0.03 vs 0.07 +/- 0.03 ml/min/gm; subepicardial = 0.20 +/- 0.07 vs 0.20 +/- 0.05 ml/min/gm) and in the dogs with leukopenia (n = 12; 0.07 +/- 0.02 vs 0.07 +/- 0.02 ml/min/gm and 0.15 +/- 0.004 vs 0.18 +/- 0.04 ml/min/gm). A similar reduction in myocardial blood flow was observed after 6 hours of reperfusion in the control dogs (0.34 +/- 0.07 ml/min/gm vs 1.02 +/- 0.11 at baseline, p less than 0.01) and in the dogs with leukopenia (0.25 +/- 0.04 vs 0.81 +/- 0.08 ml/min/gm, p less than 0.01). It was concluded that the leukocyte-dependent myocardial injury did not appear to be mediated through a flow mechanism during either ischemia or reperfusion.
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PMID:Influence of leukopenia on collateral flow, reperfusion flow, reflow ventricular fibrillation, and infarct size in dogs. 291 31

The aim of this chapter was to highlight the major components of PAF actions which lead to a state of shock, i.e. inadequate perfusion of essential organs which if sustained over a critical period of time, leads to irreversible damage in essential organs and eventually death. The heart, the pulmonary vessels and the microcirculation seem to be the primary target organs to PAF-induced hypotension. The effects of PAF on the pulmonary airways in some species (bronchoconstriction) might lead to hypoxemia and further exacerbate organ function. Thrombocytopenia, leukopenia and activation of the complement system are also important in PAF-induced shock by promoting thrombi formation and generation of multiple secondary mediators (e.g. histamine kinins, TXA2, leukotrienes, oxygen radicals). Identification of PAF production during specific or generalized pathophysiological processes is a critical step to implicate this vasoactive lipid in disease processes. So far, only limited information has been derived from studies involving immune responses (anaphylaxis) or bacterial endotoxins. Yet, the growing number of selective and potent PAF antagonists provide important information on the potential role of PAF in shock states. Such evidence, summarized in table I, is of great importance in designing new therapeutic strategies to a highly complex and lethal disease such as septicemia. However, the data summarized in table I clearly show that little is known on the mechanism of action of the various PAF antagonists. It is also important to note that PAF-induced shock and death can be prevented by drugs which are not necessarily PAF antagonists. For example, dexamethasone is extremely efficient in preventing PAF-induced shock and death in the mouse [24, 39] and thyrotropin releasing hormone in the guinea pig [15]. Therefore, it is conceivable that pathological conditions in which PAF might play a fundamental role might be reversed by pharmacological interventions which activate physiological mechanisms which can overcome and reverse the pathological processes activated by PAF. In conclusion, PAF is a powerful vasoactive lipid which can produce severe derangements in essential biological functions which can lead to death. The role of PAF in pathological processes in vivo is well supported in conditions such as anaphylaxis and endotoxemia. Yet, direct proof for PAF production in other shock states, such as multiple trauma, ischemia, inflammation and hemorrhage, is still missing. Furthermore, it is important to keep in mind that in shock, trauma or inflammation, multiple mediators in addition to PAF are formed.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Platelet-activating factor and shock. 304 32


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