scholarly article | Q13442814 |
review article | Q7318358 |
P356 | DOI | 10.1007/BF00054745 |
P953 | full work available at URL | http://link.springer.com/article/10.1007/BF00054745/fulltext.html |
http://link.springer.com/content/pdf/10.1007/BF00054745 | ||
http://link.springer.com/content/pdf/10.1007/BF00054745.pdf | ||
P698 | PubMed publication ID | 1854665 |
P2093 | author name string | D. J. Hearse | |
P2860 | cites work | American Journal of Physiology | Q2160146 |
The Heart bulletin | Q27719607 | ||
Myocardial reperfusion: a double-edged sword? | Q28236054 | ||
The mitochondrial generation of hydrogen peroxide. General properties and effect of hyperbaric oxygen | Q29616357 | ||
Direct evidence that oxygen-derived free radicals contribute to postischemic myocardial dysfunction in the intact dog. | Q33863946 | ||
Demonstration of free radical generation in "stunned" myocardium of intact dogs with the use of the spin trap alpha-phenyl N-tert-butyl nitrone | Q34559221 | ||
Direct measurement of free radical generation following reperfusion of ischemic myocardium | Q34602572 | ||
Laser flash photokinetic studies of rose bengal sensitized photodynamic interactions of nucleotides and DNA. | Q36426642 | ||
Alpha adrenergic contributions to dysrhythmia during myocardial ischemia and reperfusion in cats | Q37019508 | ||
Ischemia, reperfusion, and the determinants of tissue injury | Q37799011 | ||
Free radical scavengers in myocardial ischemia. | Q38173903 | ||
Reperfusion injury and its pharmacologic modification | Q38365078 | ||
Can superoxide dismutase alter myocardial infarct size? | Q38625209 | ||
The role of neutrophils and free radicals in the ischemic-reperfused heart: why the confusion and controversy? | Q38779372 | ||
The role of the neutrophil and free radicals in ischemic myocardial injury | Q38779376 | ||
Reperfusion arrhythmia: a marker of restoration of antegrade flow during intracoronary thrombolysis for acute myocardial infarction | Q39354169 | ||
The role of xanthine oxidase during myocardial ischemia in several species including man. | Q39519119 | ||
The protection of the ischemic myocardium: surgical success v clinical failure? | Q39640782 | ||
Oxygen-derived free radicals and postischemic myocardial dysfunction ("stunned myocardium"). | Q39645520 | ||
Myocardial consequences of reperfusion | Q39660302 | ||
Cyclic AMP levels in ischaemic and non-ischaemic myocardium following coronary artery ligation: Relation to ventricular fibrillation | Q40124564 | ||
Molecular oxygen: friend and foe. The role of the oxygen free radical system in the calcium paradox, the oxygen paradox and ischemia/reperfusion injury | Q40199398 | ||
The stunned myocardium: prolonged, postischemic ventricular dysfunction | Q40246508 | ||
Marked reduction of free radical generation and contractile dysfunction by antioxidant therapy begun at the time of reperfusion. Evidence that myocardial "stunning" is a manifestation of reperfusion injury | Q41271714 | ||
Redox modification of sodium-calcium exchange activity in cardiac sarcolemmal vesicles | Q41364958 | ||
Reperfusion-induced arrhythmias and oxygen-derived free radicals. Studies with "anti-free radical" interventions and a free radical-generating system in the isolated perfused rat heart | Q41380098 | ||
Oxygen-induced enzyme release: Early events and a proposed mechanism | Q41574038 | ||
Reperfusion-induced arrhythmias and free radicals: studies in the rat heart with DMPO. | Q42032231 | ||
The oxygen paradox and the calcium paradox: two facets of the same problem? | Q42158979 | ||
Evidence for the presence of a reversible Ca2+-dependent pore activated by oxidative stress in heart mitochondria | Q42163611 | ||
"Reperfusion injury" by oxygen-derived free radicals? Effect of superoxide dismutase plus catalase, given at the time of reperfusion, on myocardial infarct size, contractile function, coronary microvasculature, and regional myocardial blood flow | Q42651027 | ||
Reperfusion of the ischemic myocardium | Q43578879 | ||
The role of lipid peroxidation in pathogenesis of arrhythmias and prevention of cardiac fibrillation with antioxidants | Q43692030 | ||
Superoxide dismutase and the reduction of reperfusion-induced arrhythmias: in vivo dose-response studies in the rat. | Q44308222 | ||
Differing mechanisms for ventricular vulnerability during coronary artery occlusion and release | Q44391021 | ||
O2 free radicals: cause of ischemia-reperfusion injury to cardiac Na+-K+-ATPase | Q44532969 | ||
Reperfusion-induced arrhythmias: mechanisms and prevention | Q72584453 | ||
Myocardial necrosis induced by temporary occlusion of a coronary artery in the dog | Q78785512 | ||
Federation Proceedings | Q45106928 | ||
Reperfusion-induced arrhythmias in the isolated rabbit heart: characterization of the influence of the duration of regional ischemia and the extracellular potassium concentration | Q46502543 | ||
Electrophysiological derangements induced by lipid peroxidation in cardiac tissue | Q46865027 | ||
Dimethylthiourea, but not dimethylsulfoxide, reduces canine myocardial infarct size. | Q47175794 | ||
Effect of superoxide dismutase plus catalase on myocardial infarct size in rabbits | Q47176539 | ||
Enhancement of recovery of myocardial function by oxygen free-radical scavengers after reversible regional ischemia | Q49293668 | ||
Time course and determinants of recovery of function after reversible ischemia in conscious dogs. | Q52427179 | ||
Volume regulation and plasma membrane injury in aerobic, anaerobic, and ischemic myocardium in vitro. Effects of osmotic cell swelling on plasma membrane integrity. | Q52497014 | ||
Reactive oxygen species modify the structure and function of the cardiac sarcoplasmic reticulum calcium-release channel. | Q54080763 | ||
N-2-mercaptopropionylglycine improves recovery of myocardial function after reversible regional ischemia. | Q54142977 | ||
Ultrastructural damage associated with reoxygenation of the anoxic myocardium | Q66946383 | ||
Functional and electrophysiological effects of oxidant stress on isolated ventricular muscle: a role for oscillatory calcium release from sarcoplasmic reticulum in arrhythmogenesis? | Q68004055 | ||
Protection afforded by allopurinol in the first 24 hours of coronary occlusion is diminished after 48 hours | Q68267863 | ||
Reperfusion-induced arrhythmias: A study of the role of xanthine oxidase-derived free radicals in the rat heart | Q68350437 | ||
Iron-load increases the susceptibility of rat hearts to oxygen reperfusion damage. Protection by the antioxidant (+)-cyanidanol-3 and deferoxamine | Q68448383 | ||
Abrupt reoxygenation of the anoxic potassium-arrested perfused rat heart: a study of myocardial enzyme release | Q68669043 | ||
Singlet oxygen and myocardial injury: ultrastructural, cytochemical and electrocardiographic consequences of photoactivation of rose bengal | Q68819881 | ||
The role of phospholipase in the genesis of reperfusion arrhythmia | Q68963691 | ||
Antioxidants as antiarrhythmic drugs | Q68985537 | ||
Free radicals and reperfusion-induced arrhythmias: protection by spin trap agent PBN in the rat heart | Q69018468 | ||
Protection of reperfused ischemic canine myocardium by CI-922, a new inhibitor of leukocyte activation | Q69060081 | ||
Singlet oxygen-induced arrhythmias. Dose- and light-response studies for photoactivation of rose bengal in the rat heart | Q69358301 | ||
Myocardial ischemia revisited. The osmolar load, membrane damage, and reperfusion | Q69595846 | ||
Rapid electrophysiological changes leading to arrhythmias in the aerobic rat heart. Photosensitization studies with rose bengal-derived reactive oxygen intermediates | Q69637297 | ||
Reversible ischemic left ventricular dysfunction: evidence for the "hibernating myocardium" | Q69664965 | ||
Photophysical properties of rose bengal and its derivatives (XII) | Q69800590 | ||
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 | ||
Effects of allopurinol pretreatment on myocardial ultrastructure and arrhythmias following coronary artery occlusion and reperfusion | Q69898987 | ||
Effect of some free radical scavengers on reperfusion induced arrhythmias in the isolated rat heart | Q69961079 | ||
Superoxide dismutase plus catalase improve contractile function in the canine model of the "stunned myocardium" | Q69994559 | ||
Beneficial actions of superoxide dismutase and catalase in stunned myocardium of dogs | Q70024827 | ||
Proarrhythmic effects of an oxygen-derived free radical generating system on action potentials recorded from guinea pig ventricular myocardium: a possible cause of reperfusion-induced arrhythmias | Q70186450 | ||
Attenuation of dysfunction in the postischemic 'stunned' myocardium by dimethylthiourea | Q70348651 | ||
Ischemia and reperfusion-induced arrhythmias in the rat. Effects of xanthine oxidase inhibition with allopurinol | Q70815641 | ||
A protective effect of coenzyme Q10 on ischemia and reperfusion of the isolated perfused rat heart | Q70833634 | ||
Prolonged depletion of ATP and of the adenine nucleotide pool due to delayed resynthesis of adenine nucleotides following reversible myocardial ischemic injury in dogs | Q70879899 | ||
Ventricular fibrillation caused by myocardial reperfusion in Prinzmetal's angina | Q71657387 | ||
Reduction of the extent of ischemic myocardial injury by neutrophil depletion in the dog | Q71682222 | ||
Potential oxidative pathways of catecholamines in the formation of lipid peroxides and genesis of heart disease | Q71782298 | ||
P407 | language of work or name | English | Q1860 |
P921 | main subject | pharmacology | Q128406 |
Cardiology and cardiovascular medicine | Q96320350 | ||
P304 | page(s) | 225-235 | |
P577 | publication date | 1991-03-01 | |
P1433 | published in | Cardiovascular Drugs and Therapy | Q2473050 |
P1476 | title | Reperfusion-induced injury: a possible role for oxidant stress and its manipulation | |
Reperfusion-induced injury: A possible role for oxidant stress and its manipulation | |||
P478 | volume | 5 Suppl 2 |
Q44307951 | Atorvastatin, administered at the onset of reperfusion, and independent of lipid lowering, protects the myocardium by up-regulating a pro-survival pathway |
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Q46811054 | Carbon monoxide-releasing molecules attenuate postresuscitation myocardial injury and protect cardiac mitochondrial function by reducing the production of mitochondrial reactive oxygen species in a rat model of cardiac arrest |
Q73832257 | Changes in proton transverse relaxation times of rat myocardium that has suffered a previous oxidative insult |
Q73364871 | Clinical Perspectives on Lethal Reperfusion Injury |
Q52513947 | Cytoskeletal alterations in cultured cardiomyocytes following exposure to the lipid peroxidation product, 4-hydroxynonenal. |
Q57312539 | Effects of felodipine on the ischemic heart: Insight into the mechanism of cytoprotection |
Q34521289 | Epigallocatechin, a green tea polyphenol, attenuates myocardial ischemia reperfusion injury in rats |
Q36824872 | Evidence that continuous normothermic blood cardioplegia offers better myocardial protection than intermittent hypothermic cardioplegia |
Q46690768 | Immediate Early Response Gene X-1 (IEX-1) Mediates Ischemic Preconditioning-Induced Cardioprotection in Rats |
Q40524422 | Ischemic heart disease and antioxidants: mechanistic aspects of oxidative injury and its prevention |
Q77298813 | Metabolic derangement in ischemic heart disease and its therapeutic control |
Q34243115 | Mitochondrial K+ channels are involved in ischemic postconditioning in rat hearts |
Q77657755 | Mitochondrial gene expression and ventricular fibrillation in ischemic/reperfused nondiabetic and diabetic myocardium |
Q36314848 | Myocardial protection in reperfusion with postconditioning |
Q40582348 | Myocardial stunning--are calcium antagonists useful? |
Q41847656 | Protective effect of edaravone against hypoxia-reoxygenation injury in rabbit cardiomyocytes |
Q59419725 | Protective effects of melatonin against ischemia-reperfusion injury in the isolated rat heart |
Q48096504 | Protective role of nitric oxide synthase against ischemia-reperfusion injury in guinea pig myocardial mitochondria |
Q44207288 | Quantitative gas chromatographic-mass spectrometric assay of 4-hydroxynonenal bound to thiol proteins in ischemic/reperfused rat hearts |
Q36843530 | Reduction of oxidative stress does not affect recovery of myocardial function: warm continuous versus cold intermittent blood cardioplegia |
Q73364814 | Reperfusion Injury: Does It Exist and Does It Have Clinical Relevance? |
Q36846547 | Stunning: a radical re-view |
Q43845096 | Superoxide dismutase 10 years later: a drug in search of a use. |
Q72569064 | The effects of a temperature below 15 degrees C on the myocardial calcium and ultrastructure in donor heart preservation in a canine model |
Q51368940 | The inhibitory effects of carvedilol against arrhythmias induced by coronary reperfusion in anesthetized rats. |
Q41092806 | The scientific basis for hypocalcemic cardioplegia and reperfusion in cardiac surgery |
Q28389189 | Urinary metals and heart rate variability: a cross-sectional study of urban adults in Wuhan, China |
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