Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0151744 (myocardial ischemia)
 31,282 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

As damage to the pulmonary vascular endothelium may be responsible for the lung toxicity of amiodarone, we evaluated the cytolytic toxicity of the drug in cultures of endothelial cells. Cells were cultured from human umbilical cord veins. Amiodarone caused a vacuolization of the cells with liberation of both lactate dehydrogenase (LDH) and angiotensin-converting enzyme (ACE) in the culture medium. These effect were both concentration and time dependent, and were correlated between them. The first toxic effects were shown as soon as 2 hours after contact with the drug and at 0.1 mg/ml, a concentration that can be reached in plasma of amiodarone-treated patients. A decrease of ACE activity in the cells was delayed to 24 hours and only with the 10 mg/ml concentration. This event correlated with cell death and detachment from the extracellular matrix. LDH increases corresponded to its isoenzymes 3 and 4. These data support the hypothesis of a direct toxic effect of amiodarone on the endothelium and show the need for evaluating LDH, total activity and isoenzymic profile, and ACE determinations in the plasma of patients treated with amiodarone for ischemic heart disease or arrhythmia.
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PMID:Cytotoxicity of amiodarone in cultured human endothelial cells. 895 70

Bleeding and thrombosis are major causes of morbidity and mortality in patients with chronic myeloproliferative disorders. We retrospectively evaluated 101 consecutive patients affected by primary thrombocytosis (46 male, 55 female, aged 18-84 years; mean +/- SD 61 +/- 15) followed for a period ranging from 6 months up to 10 years (median 5 years) at our hematological unit. At the time of diagnosis 48 patients were asymptomatic; 26 had clinical evidence of atherothrombosis (cerebral ischemic attacks, ischemic heart disease, peripheral occlusive arterial disease), ten had venous thrombosis, four experienced major hemorrhages, 23 presented microvascular ischemic manifestations namely erythromelalgia, paresthesias, acrocyanosis and dizziness. At presentation 51.2% of the patients had elevated serum lactic dehydrogenase, 34.5% hyperuricemia, and 23.4% serum creatinine > 1.2 mg/dL. Color Doppler ultrasound provided evidence of vascular stenosis or medium-intimal hyperplasia of epiaortic vessels in 48.9% of patients studied, and similar alterations of lower limb arteries in 23.8% of cases. Therapy modality included an antiplatelet agent (picotamide 300 mg/bid); a cytoreductive agent (busulphan, hydroxyurea, pipobroman or melphalan) was used when platelet count was > 800000/microL. Symptoms due to microvascular ischemia promptly regressed after picotamide and cytoreductive therapy. During follow-up. nine patients suffered from atherothrombotic events (transient ischemic attacks, ischemic stroke, unstable angina pectoris) and five developed deep vein thrombosis or superficial thrombophlebitis. Five patients experienced major hemorrhages (two melena, two hematuria, one perioperative bleeding); the two gastrointestinal hemorrhages occurred in patients self-medicated with non steroidal anti-inflammatory drugs, and the two episodes of hematuria occurred on oral anticoagulant therapy and aspirin respectively. No major bleeding occurred in patients on continuative therapy with picotamide, even in the presence of upper digestive tract disorders. Seven patients died: mortality resulted from one sudden coronary death, three solid neoplasia, one blast crisis, one anile, and one massive hemorrhage due to abdominal aortic prosthesis tearing. Our study suggests that a long-term antithrombotic prophylaxis with picotamide may be of benefit in patients affected by primary thrombocytosis; a controlled clinical trial is warranted to assess whether picotamide can ameliorate the natural history of the disease.
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PMID:Thrombotic and hemorrhagic complications in chronic myeloproliferative disorders. 895 59

While the ischemic tolerance of the myocardium has been reported to decrease with senescence, it is not known when and how this occurs. Our objectives were to determine whether the tolerance to myocardial ischemia in rats decreased before the onset of senescence and whether an increase in myocardial ionic imbalance was associated with an enhanced myocardial injury with aging. Hearts were isolated from Fischer 344 rats categorized as young (12 weeks old), mature adult (24 weeks), middle-aged (50 weeks) or senescent (100 weeks). Hearts were perfused isovolumically by the Langendorff procedure and subjected to 25 min of global ischemia followed by 30 min of reperfusion. In the 50- and 100-week-old rats, the recovery of ventricular function and high-energy phosphate levels was lower and there was increased incidence of ventricular fibrillation after 25 min of global ischemia followed by reperfusion. The release of creatine kinase and lactate dehydrogenase during reperfusion was greater in the 50-and 100-week-old rats than in the 12- and 24-week-old rats, indicating the irreversible myocardial damage due to ischemia-reperfusion increased by middle-age. Intracellular levels of Na+ and K+ before ischemia were higher in the 50- or 100-week-old rats than in the 12-week-old rats. The increase in intracellular Na+ at end of ischemia was greater in the older (50-week-old, 215% of the pre-ischemic value; 100-week-old, 232% of the pre-ischemic value) than in the younger rats (12-week-old, 158% of the pre-ischemic value). Results indicated that the rat heart becomes more vulnerable to ischemia in middle-age. This decrease in ischemic tolerance may be caused by an acceleration of myocardial ionic imbalance with aging.
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PMID:Decrease in ischemic tolerance with aging in isolated perfused Fischer 344 rat hearts: relation to increases in intracellular Na+ after ischemia. 940 82

Macroenzymes are complexes of serum enzymes with proteins which have a higher molecular weight and longer plasma half-life than the normal enzyme. The presence of macroenzymes is suggested by finding increased serum enzyme activity, not associated with symptoms. Thus, macroenzymes can cause diagnostic errors and the performance of unnecessary tests or invasive procedures. We describe 2 patients with highly elevated serum levels of lactate dehydrogenase (LDH) and creatine kinase (CK) due to formation of complexes with immunoglobulin G. 1 patient had LDH of 4500 u/L but was otherwise normal and in the second CK was elevated with no evidence of ischemic heart disease. Awareness of the phenomenon of macroenzymes may save the patient long and sometimes invasive investigation.
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PMID:[Macroenzymes: an interesting laboratory finding, without clinical relevance]. 941 37

Accurate recognition of signs and symptoms and prompt diagnosis of myocardial infarction are essential for preserving myocardial function and saving lives. However, measurements of cardiac enzymes such as creatine kinase, lactate dehydrogenase, and their isoenzymes do not always provide accurate clinical diagnosis, particularly in patients with other concomitant diseases. Recently, alternative biomarkers of cardiac disease have been described: creatine kinase mass, cardiac troponins, and myoglobin. All cardiac biomarkers have some clinical usefulness in diagnosing acute coronary syndrome and acute myocardial infarction. Indications for use vary for each biomarker, and each has advantages and disadvantages and can be used at various times. However, the following must be considered: (1) Serial testing is essential with any biomarker. (2) None of the current biomarkers can be used to detect myocardial ischemia. (3) The decision of which biomarker to use should be based on the capabilities of the healthcare facility and the signs and symptoms of the patient.
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PMID:Cardiac biomarkers: past, present, and future. 1022 66

Cellular ischemia results in activation of a number of kinases, including p38 mitogen-activated protein kinase (MAPK); however, it is not yet clear whether p38 MAPK activation plays a role in cellular damage or is part of a protective response against ischemia. We have developed a model to study ischemia in cultured neonatal rat cardiac myocytes. In this model, two distinct phases of p38 MAPK activation were observed during ischemia. The first phase began within 10 min and lasted less than 1 h, and the second began after 2 h and lasted throughout the ischemic period. Similar to previous studies using in vivo models, the nonspecific activator of p38 MAPK and c-Jun NH2-terminal kinase, anisomycin, protected cardiac myocytes from ischemic injury, decreasing the release of cytosolic lactate dehydrogenase by approximately 25%. We demonstrated, however, that a selective inhibitor of p38 MAPK, SB 203580, also protected cardiac myocytes against extended ischemia in a dose-dependent manner. The protective effect was seen even when the inhibitor was present during only the second, sustained phase of p38 MAPK activation. We found that ischemia induced apoptosis in neonatal rat cardiac myocytes and that SB 203580 reduced activation of caspase-3, a key event in apoptosis. These results suggest that p38 MAPK induces apoptosis during ischemia in cardiac myocytes and that selective inhibition of p38 MAPK could be developed as a potential therapy for ischemic heart disease.
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PMID:An inhibitor of p38 mitogen-activated protein kinase protects neonatal cardiac myocytes from ischemia. 1003 15

The effects of Schisandrin B (Sch B) and dimethyl-4,4'-dimethoxy-5,6,5',6'dimethylene-dioxy-biphenyl-2,2'-+ ++bicarboxylate (DDB) treatment on myocardial ischemia-reperfusion (IR) injury in isolated perfused rat hearts were examined under both in vitro and ex vivo conditions. In vitro administration of liposome-entrapped Sch B or DDB during reperfusion did not protect against myocardial IR injury, whereas ascorbic acid or Trolox supplemented perfusate produced protective effect, as evidenced by the significant decrease in the extent of lactate dehydrogenase leakage as well as an improvement in contractile force recovery. Myocardial protection afforded by N-acetyl-L-cysteine supplemented perfusate was not accompanied by the enhancement in contractile force recovery. In ex vivo experiment, pretreatment of Sch B (0.6/1.2 mmol/kg/day x 3) protected against IR-induced myocardial damage in a dose-dependent manner. The myocardial protection was associated with an enhancement in myocardial glutathione antioxidant status, as indicated by significant reductions in both the extent of IR-induced reduced glutathione depletion and inhibition of Se-glutathione peroxidase and glutathione reductase activities. In contrast, the inability of DDB pretreatment to enhance myocardial glutathione antioxidant status resulted in a failure in preventing IR injury. The ensemble of results suggests that the myocardial protection afforded by Sch B pretreatment, which was unlikely due to free radical scavenging action, may be mainly mediated by the enhancement of myocardial glutathione antioxidant status, particularly under oxidative stress conditions.
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PMID:Schisandrin B protects against myocardial ischemia-reperfusion injury by enhancing myocardial glutathione antioxidant status. 1044 14

The outcome of myocardial ischemia-reperfusion has been partially attributed to the degree of apoptosis in cardiomyocytes. Aggregating platelets by release of transforming growth factor-beta(1) (TGF-beta(1)) protect the isolated heart against ischemia-reperfusion injury and preserve myocardial TGF-beta(1) content. To gain more insight into the modulation of hypoxia-reoxygenation-induced injury (apoptosis and necrosis) to myocytes by TGF-beta(1) and aggregating platelets, cultured adult rat myocytes were exposed for 48 or 72 h to hypoxia alone, or to hypoxia followed by 3 h of reoxygenation. Apoptosis in the cells was determined by in situ terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end labeling staining and DNA fragmentation on gel electrophoresis. Hypoxia alone caused a time-dependent increase in myocyte apoptosis (number of apoptotic cells: 19+/-3% at 48 h and 39+/-5% at 72 h compared with 5+/-1% in control cells, based on a 500-cell count). Three hours of reoxygenation after 48 h of hypoxia further increased the number of apoptotic cells (34+/-8 versus 19+/-3% in hypoxia for 48 h), but reoxygenation after 72 h of hypoxia did not additionally increase the number of apoptotic cells, perhaps because of extensive cell necrosis on prolonged hypoxia. Forty-eight hours of hypoxia followed by 3 h of reoxygenation also resulted in a decrease in Bcl-2 and an increase in Fas protein level. Incubation of myocytes with either recombinant TGF-beta(1) (0.5-5 ng/ml) or aggregated platelet supernatant (from 2-3 x10(7) platelets/ml, containing approximately 0.5 ng/ml of TGF-beta(1)) markedly (P<.01) decreased the number of apoptotic cells after hypoxia-reoxygenation. Incubation with TGF-beta(1) also reduced myocyte necrosis as evident from lactate dehydrogenase release and trypan blue dye exclusion. These data demonstrate that hypoxia-reoxygenation results in apoptosis and necrosis in cultured adult rat myocytes; this can be attenuated by TGF-beta(1). Similarity of data with TGF-beta(1) and aggregated platelet supernatant suggests that platelet-mediated cardioprotection during hypoxia-reoxygenation may relate in part to the release of TGF-beta(1).
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PMID:Hypoxia-reoxygenation-induced apoptosis in cultured adult rat myocytes and the protective effect of platelets and transforming growth factor-beta(1). 1052 94

Calcium antagonists may protect against postischemic reperfusion injury of the heart, but neither the time and mode of action leading to cardioprotection is resolved, nor is the generality of this effect proven. Accordingly, the functional and metabolic influence of four different Ca2+-antagonists (diltiazem, 3x10(-8) M; nifedipine, 3x10(-9) M; amlodipine, 3x 10(-9) M; barnidipine, 3x10(-11) M) was examined in preparations of guinea pig hearts (n=7/group) performing pressure-volume work after being subjected to low-flow ischemia (30 min) and reperfusion (35 min). The drugs were applied throughout the study at concentrations without negative inotropic or chronotropic effect, as would be mandatory for any therapeutic application, and without overt coronary dilatation. All calcium antagonists improved postischemic recovery of external heart work: from 42% in controls (post- vs. preischemic value) to 59% for diltiazem, 61% for nifedipine, 65% for amlodipine, and 73% for barnidipine (all P<0.05). Efficiency of myocardial performance (work in relation to oxygen consumption) was low in postischemic controls (8% of total energy equivalents), but significantly improved in treated hearts, especially by barnidipine (15% efficiency). Release of lactate dehydrogenase in the first 5 min of reperfusion, a sign of cell damage, increased from basal (65 mU/min) to 208 mU/min in controls. This increase was fully suppressed by all drugs tested. Myocardial release of lactate and of purine catabolites of adenine nucleotides (markers of anaerobic metabolism) was markedly reduced by Ca2+-antagonists. Interestingly, these metabolic effects were evident not only in the reperfusion phase, but already in the period of low-flow ischemia. Oxidative consumption of pyruvate was enhanced, whereas coronary flow and heart rate showed no postischemic effect of treatment. These findings on isolated guinea pig hearts suggest that Ca2+-antagonists generally improve postischemic pump function and aerobic metabolism without any requirements for negative inotropic action or coronary dilatation. The protective effects seemed to rely on an attenuation of both ischemic stress and reperfusion damage. This could implicate a benefit from prophylactic use of Ca2+-antagonists in patients at risk for myocardial ischemia.
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PMID:Low-dose calcium antagonists reduce energy demand and cellular damage of isolated hearts during both ischemia and reperfusion. 1054 30

Perioperative myocardial infarction as well as other major cardiac events induced by myocardial ischemia during and after a more complex or long-lasting operation represents a permanent threat for a successful outcome. High number of cardiac ischemic events especially following major vascular surgery and in elder subjects requires early, sensitive and specific diagnostic markers. This review paper presents conventional as well as novel biochemical methods fulfilling the above mentioned criteria. Until now used estimations of traditional enzyme activities (aspartate aminotransferase and lactate dehydrogenase) are either entirely discarded or subsequently lose their importance (i.e. activities of total creatine kinase and its MB-isoenzyme) an instead modern methods that estimate the amounts of specific cardiac proteins--troponins T and I, constituents of myocardial contractile apparatus--released from ischemized heart are used. Patient's monitoring by means of these cardiac markers allows an early, rapid and reliable estimation of perioperative myocardial infarction enabling possible to arrange an immediate effective treatment. Recently the myocardial regulatory protein troponin I is considered the most specific cardiac marker the plasma level of which does not increase in acute damage and chronic diseases of skeletal muscles, nor in chronic renal failure. (Ref. 52.)
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PMID:[Biochemical markers of perioperative myocardial infarct in non-cardiac surgery]. 1057 43


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