| scholarly article | Q13442814 |
| review article | Q7318358 |
| P356 | DOI | 10.1016/S0002-9343(00)00467-8 |
| P698 | PubMed publication ID | 10996583 |
| P2093 | author name string | Granger DN | |
| Lefer DJ | |||
| P2860 | cites work | Myocardial reperfusion: a double-edged sword? | Q28236054 |
| Measurement of endothelial cell free radical generation: evidence for a central mechanism of free radical injury in postischemic tissues | Q33579059 | ||
| Direct evidence that oxygen-derived free radicals contribute to postischemic myocardial dysfunction in the intact dog. | Q33863946 | ||
| Transgenic mice with expression of elevated levels of copper-zinc superoxide dismutase in the lungs are resistant to pulmonary oxygen toxicity | Q34265263 | ||
| Mice deficient in cellular glutathione peroxidase develop normally and show no increased sensitivity to hyperoxia | Q34430043 | ||
| Reperfusion after acute coronary occlusion in dogs impairs endothelium-dependent relaxation to acetylcholine and augments contractile reactivity in vitro | Q34556297 | ||
| Direct measurement of free radical generation following reperfusion of ischemic myocardium | Q34602572 | ||
| The protective role of manganese superoxide dismutase against adriamycin-induced acute cardiac toxicity in transgenic mice | Q37359529 | ||
| Cholesterol in the prediction of atherosclerotic disease. New perspectives based on the Framingham study | Q37897616 | ||
| Modulation of leukocyte-mediated myocardial reperfusion injury | Q37918910 | ||
| Mechanism of myocardial "stunning". | Q37950526 | ||
| Myocardial ischemia and reperfusion: the role of oxygen radicals in tissue injury | Q38216363 | ||
| Overexpression of MnSOD protects against myocardial ischemia/reperfusion injury in transgenic mice. | Q38547659 | ||
| Can superoxide dismutase alter myocardial infarct size? | Q38625209 | ||
| Free radicals and myocardial ischemia: overview and outlook | Q39182196 | ||
| Free radicals, calcium homeostasis, heat shock proteins, and myocardial stunning | Q40484096 | ||
| Role of neutrophils in myocardial ischemia and reperfusion | Q40607723 | ||
| Free radicals and myocardial reperfusion injury | Q40771868 | ||
| The role of nitric oxide and cell adhesion molecules on the microcirculation in ischaemia-reperfusion | Q41208180 | ||
| Reperfusion injury: a review of the pathophysiology, clinical manifestations and therapeutic options | Q41362931 | ||
| Treatment with deferoxamine during ischemia improves functional and metabolic recovery and reduces reperfusion-induced oxygen radical generation in rabbit hearts | Q41784401 | ||
| Prevention of myocardial damage in acute myocardial ischemia by early treatment with intravenous streptokinase | Q42086134 | ||
| Time course of endothelial dysfunction and myocardial injury during myocardial ischemia and reperfusion in the cat. | Q42105602 | ||
| Diminished basal nitric oxide release after myocardial ischemia and reperfusion promotes neutrophil adherence to coronary endothelium | Q42509376 | ||
| Protection by superoxide dismutase from myocardial dysfunction and attenuation of vasodilator reserve after coronary occlusion and reperfusion in dog. | Q44368688 | ||
| Superoxide dismutase reduces reperfusion arrhythmias but fails to salvage regional function or myocardium at risk in conscious dogs | Q46646164 | ||
| Therapy to reduce free radicals during early reperfusion does not limit the size of myocardial infarcts caused by 90 minutes of ischemia in dogs | Q47178471 | ||
| Glutathione redox pathway and reperfusion injury. Effect of N-acetylcysteine on infarct size and ventricular function | Q47179366 | ||
| Failure of superoxide dismutase to limit size of myocardial infarction after 40 minutes of ischemia and 4 days of reperfusion in dogs | Q47195241 | ||
| Reduction in experimental infarct size by recombinant human superoxide dismutase: insights into the pathophysiology of reperfusion injury | Q47202919 | ||
| Superoxide dismutase and catalase reduce infarct size in a porcine myocardial occlusion-reperfusion model. | Q47204474 | ||
| Failure of superoxide dismutase and catalase to alter size of infarction in conscious dogs after 3 hours of occlusion followed by reperfusion | Q47209615 | ||
| The independent effects of oxygen radical scavengers on canine infarct size. Reduction by superoxide dismutase but not catalase | Q47224653 | ||
| Marked reduction in myocardial infarct size due to prolonged infusion of an antioxidant during reperfusion | Q47377016 | ||
| Reduction of canine myocardial infarct size by a diffusible reactive oxygen metabolite scavenger. Efficacy of dimethylthiourea given at the onset of reperfusion | Q47429673 | ||
| Effect of intracoronary superoxide dismutase on regional function in stunned myocardium | Q48760531 | ||
| Transgenic mice overexpressing glutathione peroxidase are resistant to myocardial ischemia reperfusion injury | Q48948258 | ||
| Glutathione peroxidase protects mice from viral-induced myocarditis. | Q52531835 | ||
| Low doses of superoxide dismutase and a stable prostacyclin analogue protect in myocardial ischemia and reperfusion | Q54068458 | ||
| Canine myocardial reperfusion injury. Its reduction by the combined administration of superoxide dismutase and catalase. | Q64997881 | ||
| Superoxide dismutase conjugated to polyethylene glycol provides sustained protection against myocardial ischemia/reperfusion injury in canine heart | Q67950612 | ||
| Effects of superoxide dismutase on reperfusion arrhythmias and left ventricular function in patients undergoing thrombolysis for anterior wall acute myocardial infarction | Q67985169 | ||
| Intracoronary superoxide dismutase for the treatment of "reperfusion injury", A blind randomized placebo-controlled trial in ischemic, reperfused porcine hearts | Q68151616 | ||
| Evidence for a role of iron-catalyzed oxidants in functional and metabolic stunning in the canine heart | Q68448324 | ||
| Sustained limitation by superoxide dismutase of canine myocardial injury due to regional ischemia followed by reperfusion | Q69020595 | ||
| Protective effects of N-2-mercaptopropionyl glycine against myocardial reperfusion injury after neutrophil depletion in the dog: evidence for the role of intracellular-derived free radicals | Q69485872 | ||
| Xanthine oxidase as a source of free radical damage in myocardial ischemia | Q69802700 | ||
| Direct detection of free radicals in the reperfused rat heart using electron spin resonance spectroscopy | Q69809090 | ||
| Spin-trapping evidence that graded myocardial ischemia alters post-ischemic superoxide production | Q69809500 | ||
| Superoxide dismutase plus catalase improve contractile function in the canine model of the "stunned myocardium" | Q69994559 | ||
| Coronary vascular reactivity after acute myocardial ischemia | Q70464312 | ||
| Protective effects of the SOD-mimetic SC-52608 against ischemia/reperfusion damage in the rabbit isolated heart | Q72355247 | ||
| Recombinant human superoxide dismutase (h-SOD) fails to improve recovery of ventricular function in patients undergoing coronary angioplasty for acute myocardial infarction | Q72415128 | ||
| Transgenic models for the study of lung antioxidant defense: enhanced manganese-containing superoxide dismutase activity gives partial protection to B6C3 hybrid mice exposed to hyperoxia | Q74419927 | ||
| Glutathione peroxidase-deficient mice are more susceptible to neutrophil-mediated hepatic parenchymal cell injury during endotoxemia: importance of an intracellular oxidant stress | Q77906195 | ||
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | oxidative stress | Q898814 |
| P304 | page(s) | 315-323 | |
| P577 | publication date | 2000-09-01 | |
| P1433 | published in | American Journal of Medicine | Q2842959 |
| P1476 | title | Oxidative stress and cardiac disease | |
| P478 | volume | 109 |
| Q44588212 | 8-Nitroxanthine, a product of myeloperoxidase, peroxynitrite, and activated human neutrophils, enhances generation of superoxide by xanthine oxidase |
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| Q33184827 | A role for the myoglobin redox cycle in the induction of endothelial cell apoptosis |
| Q46952839 | ANG II-induced cardiac molecular and cellular events: role of aldosterone |
| Q41268608 | Adenosine A2A receptor signaling regulation of cardiac NADPH oxidase activity. |
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| Q37640127 | Alcoholic Extract of Eclipta alba Shows In Vitro Antioxidant and Anticancer Activity without Exhibiting Toxicological Effects. |
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| Q40237280 | Antioxidants and phase 2 enzymes in cardiomyocytes: Chemical inducibility and chemoprotection against oxidant and simulated ischemia-reperfusion injury |
| Q92156146 | Astragaloside IV Attenuates Myocardial Ischemia-Reperfusion Injury from Oxidative Stress by Regulating Succinate, Lysophospholipid Metabolism, and ROS Scavenging System |
| Q41767266 | Augmented O-GlcNAc signaling attenuates oxidative stress and calcium overload in cardiomyocytes. |
| Q37747491 | Beneficial effects of melatonin in cardiovascular disease |
| Q64126983 | Benidipine reduces ischemia reperfusion-induced systemic oxidative stress through suppression of aldosterone production in mice |
| Q44646731 | Bifunctional agents for reperfusion arrhythmias: Novel hybrid vitamin E/Class I antiarrhythmics |
| Q92592898 | Carbon nanotubes: Evaluation of toxicity at biointerfaces |
| Q37482846 | Cardiac progenitor cell-derived exosomes prevent cardiomyocytes apoptosis through exosomal miR-21 by targeting PDCD4. |
| Q35075553 | Cardiac remodeling and physical training post myocardial infarction |
| Q34066844 | Cardiac specific deletion of N-methyl-d-aspartate receptor 1 ameliorates mtMMP-9 mediated autophagy/mitophagy in hyperhomocysteinemia |
| Q38988164 | Cardioprotective effects of glycyrrhizic acid against isoproterenol-induced myocardial ischemia in rats. |
| Q85639684 | Catalasic activity in fish liver: improvement of the UV to visible analytic method |
| Q28282415 | Characterization of selenium-containing glutathione transferase zeta1-1 with high GPX activity prepared in eukaryotic cells |
| Q53378752 | Chemokine CCL5/RANTES inhibition reduces myocardial reperfusion injury in atherosclerotic mice. |
| Q47434519 | Clinical implications of ischaemia-reperfusion injury |
| Q82877654 | Component analysis and free radical-scavenging potential of Panax notoginseng and Carthamus tinctorius extracts |
| Q36827888 | Connexin 43 in ischemic pre- and postconditioning. |
| Q34444798 | Corruption of coronary collateral growth in metabolic syndrome: Role of oxidative stress |
| Q56984633 | Cruciferous vegetable phytochemical sulforaphane affects phase II enzyme expression and activity in rat cardiomyocytes through modulation of Akt signaling pathway |
| Q54215643 | Edaravone, a potent free radical scavenger and a calcium channel blocker attenuate isoproterenol induced myocardial infarction by suppressing oxidative stress, apoptotic signaling and ultrastructural damage. |
| Q40217656 | Effect of an Ilex paraguariensis (yerba mate) extract on infarct size in isolated rat hearts: the mechanisms involved |
| Q44040643 | Effect of myocardial stunning on thiol status, myofibrillar ATPase and troponin I proteolysis |
| Q35155088 | Environmentally persistent free radicals decrease cardiac function before and after ischemia/reperfusion injury in vivo |
| Q41921965 | Evaluation of buspirone on streptozotocin induced type 1 diabetes and its associated complications. |
| Q43875060 | Further evidence that melanocortins prevent myocardial reperfusion injury by activating melanocortin MC3 receptors |
| Q79501744 | Glutathione and glutathione-linked enzymes in normal human aortic smooth muscle cells: chemical inducibility and protection against reactive oxygen and nitrogen species-induced injury |
| Q57178286 | Human wild-type superoxide dismutase 1 gene delivery to rat bone marrow stromal cells: its importance and potential future trends |
| Q64112490 | Hydrogen sulfide protects H9c2 cardiomyoblasts against H2O2-induced apoptosis |
| Q81241216 | Identification of major phenolic compounds of Chinese water chestnut and their antioxidant activity |
| Q37115066 | In situ real-time chemiluminescence imaging of reactive oxygen species formation from cardiomyocytes |
| Q46574647 | In-stent stenosis: potential role of increased oxidative stress and glutathione-linked detoxification mechanisms |
| Q42679536 | Induction of Cardiac Angiogenesis Requires Killer Cell Lectin-Like Receptor 1 and α4β7 Integrin Expression by NK Cells |
| Q44612322 | Induction of endogenous antioxidants and phase 2 enzymes by α-lipoic acid in rat cardiac H9C2 cells: protection against oxidative injury |
| Q47981043 | Inflammatory responses after percutaneous coronary intervention in patients with acute myocardial infarction or stable angina pectoris |
| Q37483798 | Inhibition of PKR protects against H2O2-induced injury on neonatal cardiac myocytes by attenuating apoptosis and inflammation |
| Q35019445 | Inhibition of the cardiomyocyte-specific kinase TNNI3K limits oxidative stress, injury, and adverse remodeling in the ischemic heart |
| Q44685405 | Inhibitory effect of resveratrol on angiotensin II-induced cardiomyocyte hypertrophy |
| Q82894630 | Inhibitory effects of edaravone on the production of tumor necrosis factor-alpha in the isolated heart undergoing ischemia and reperfusion |
| Q34772299 | Interaction between reactive oxygen metabolites and nitric oxide in oxidant tolerance. |
| Q28477422 | Intracellular ROS protection efficiency and free radical-scavenging activity of curcumin |
| Q42210379 | Intracellular ROS protection efficiency and free radical-scavenging activity of quercetin and quercetin-encapsulated liposomes. |
| Q83333021 | Intramyocardial administration of chimeric ephrinA1-Fc promotes tissue salvage following myocardial infarction in mice |
| Q41835432 | LAU-0901, a novel platelet-activating factor antagonist, is highly neuroprotective in cerebral ischemia |
| Q36835054 | Low erythrocyte catalase enzyme activity is correlated with high serum total homocysteine levels in Tunisian patients with acute myocardial infarction |
| Q36380983 | Mechanisms of Raynaud's disease |
| Q37365490 | Mechanisms of flavonoid protection against myocardial ischemia-reperfusion injury. |
| Q46316554 | Melatonin protects myocardium from ischemia-reperfusion injury in hypertensive rats: role of myeloperoxidase activity |
| Q36177933 | Metabolic cardioprotection by pyruvate: recent progress. |
| Q36673482 | MicroRNA-21 protects against the H(2)O(2)-induced injury on cardiac myocytes via its target gene PDCD4. |
| Q47887382 | MicroRNA-214 protects cardiac myocytes against H2O2-induced injury |
| Q45029396 | Mitochondrial phospholipid bilayer structure is ruined after liver oxidative injury in vivo |
| Q30374674 | Mitochondrial reactive oxygen species production in excitable cells: modulators of mitochondrial and cell function. |
| Q46846222 | Mobile phone-induced myocardial oxidative stress: protection by a novel antioxidant agent caffeic acid phenethyl ester |
| Q33555604 | Modulation of K(ATP) currents in rat ventricular myocytes by hypoxia and a redox reaction |
| Q37554346 | Molecular mechanisms of 4-hydroxy-2-nonenal and acrolein toxicity: nucleophilic targets and adduct formation |
| Q38912337 | Myocardial Oxidative Stress in Infants Undergoing Cardiac Surgery |
| Q44187161 | Myocardial ischemia-reperfusion in rats: reduction of infarct size by either supplemental physiological or pharmacological doses of melatonin |
| Q46844253 | Nitric oxide-cGMP-protein kinase G signaling pathway induces anoxic preconditioning through activation of ATP-sensitive K+ channels in rat hearts. |
| Q47178073 | Novel Synthesized Radical-Containing Nanoparticles Limit Infarct Size Following Ischemia and Reperfusion in Canine Hearts |
| Q90074179 | Oxidative Stress Biomarkers, Nut-Related Antioxidants, and Cardiovascular Disease |
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