Coronary Artery Reperfusion

Ginks, W. R.; Sybers, Harley D.; Maroko, Peter R.; Covell, James W.; Sobel, Burton E.; Ross, Jr J

doi:10.1172/jci107091

Cited by 269 publications

(21 citation statements)

References 14 publications

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“…Reperfusion has been shown to protect ischemic myocardium from necrosis even when it is delayed for 6 hr (16,17). However, with prolonged myocardial ischemia, hemorrhagic infarcts may occur (18) and postreperfusion mechanical dysfunction, which may persist for prolonged periods, occurs (19).…”

Section: Methodsmentioning

confidence: 99%

Prolonged derangements of canine myocardial purine metabolism after a brief coronary artery occlusion not associated with anatomic evidence of necrosis

DeBoer

Ingwall

Kloner

et al. 1980

Proc. Natl. Acad. Sci. U.S.A.

216

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Changes in myocardial purine metabolism were studied after temporary coronary artery occlusion and subsequent reperfusion in the dog. Sequential myocardial biopsies were performed to allow for measurements of ATP, adenine nucleotide, nucleoside, and base concentrations after 15 min of ischemia, and after 90 min and 72 hr of reperfusion following this period of ischemia. Control, nonischemic sites were also sampled. After 15 min of coronary occlusion, subendocardial ATP concentrations (reported in nmol/mg of protein; mean + SEM) were depressed in the ischemic zone at 19.9 + 3.5 compared to 38.1 ± 2.8 in the nonischemic zone (P < 0.001). Subepicardial ATP concentrations also were depressed at 27.0 ± 2.2 in ischemic sites compared to subepicardial nonischemic sites (40.0 + 4.0, P < 0.005). After 90 min of reperfusion ATP concentrations remained depressed in the previously ischemic subendocardium 26.8 b 4.2 (P < 0.025 vs. nonischemic sites). After 72 hr of reperfusion, ATP was still depressed in the previously ischemic subendocardium at 29.2 ± 2.5 (P < 0.025 vs. nonischemic) and subepicardium (27.9 + 3.3, P < 0.05 vs. nonischemic). Total purines were determined as the sum of ATP, ADP, AMP, adenosine, inosine, and hypoxanthine. After 15 min of occlusion, the total purine pool in the ischemic subendocardium tended towards being lower than in the nonischemic zone (42.0 + 5.9 vs. 53.8 + 5.2, not significant) but in the ischemic subepicardium the total purine pool was similar to that in the nonischemic zone. After 90 min of reperfusion the previously ischemic subendocardial purine pool was reduced compared to the nonischemic zone (39.0 + 4.8, P < 0.025). Total purines were also depleted in both the subendocardium and subepicardium of previously ischemic zones after 72 hr of reperfusion (44.5 + 2.9 and 40.0 + 4.4, respectively, P < 0.05). Histologic analysis of the previously ischemic tissue revealed no evidence of necrosis. Therefore, brief temporary coronary artery occlusions not associated with anatomic evidence of necrosis may result in prolonged abnormalities of ATP concentration and significant depletion of the total purine pool. It is generally assumed that the myocardium of patients who experience temporary myocardial ischemia, such as occurs in angina pectoris, and who recover from this event without developing electrocardiographic, enzymatic, or radioisotopic evidence of myocardial infarction, rapidly returns to normal. There are experimental studies that support this assumption. Thus, after temporary coronary artery occlusion in animals in which the myocardium is ischemic for less than 20 min, no necrosis develops when the coronary artery is released. Hence this myocardium has been considered to be reversibly injured (1). On the other hand, when the temporary coronary occlusion is maintained for a longer period of time (40-60 min), histologic evidence of necrosis develops in the subendocardium and, by definition, these cells may be considered to be irreversibly injured (1). Although brief coronary arter...

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Section: Methodsmentioning

confidence: 99%

Prolonged derangements of canine myocardial purine metabolism after a brief coronary artery occlusion not associated with anatomic evidence of necrosis

DeBoer

Ingwall

Kloner

et al. 1980

Proc. Natl. Acad. Sci. U.S.A.

216

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“…Although today it is unequivocally clear that timely reperfusion of an occluded coronary artery is the only way to rescue myocardium from impending infarction, this notion is a little more than 40 years old and goes back to the study by Ross and collaborators 39,40 who first reported that reperfusion after 180-minute coronary occlusion reduced infarct size in dogs. These findings were quickly translated to humans with acute myocardial infarction who were reperfused by thrombolysis or percutaneous coronary interventions (PCIs).…”

Section: Coronary Circulation As a Determinant Of Reperfusion And Repmentioning

confidence: 99%

The Coronary Circulation as a Target of Cardioprotection

Heusch

2016

Circulation Research

209

160

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Abstract:The atherosclerotic coronary vasculature is not only the culprit but also a victim of myocardial ischemia/ reperfusion injury. Manifestations of such injury are increased vascular permeability and edema, endothelial dysfunction and impaired vasomotion, microembolization of atherothrombotic debris, stasis with intravascular cell aggregates, and finally, in its most severe form, capillary destruction with hemorrhage. In animal experiments, local and remote ischemic pre-and postconditioning not only reduce infarct size but also these manifestations of coronary vascular injury, as do drugs which recruit signal transduction steps of conditioning. Clinically, no-reflow is frequently seen after interventional reperfusion, and it carries an adverse prognosis. The translation of cardioprotective interventions to clinical practice has been difficult to date. Only 4 drugs (brain natriuretic peptide, exenatide, metoprolol, and esmolol) stand unchallenged to date in reducing infarct size in patients with reperfused acute myocardial infarction; unfortunately, for these drugs, no information on their impact on the ischemic/reperfused coronary circulation is available. (Circ Res.

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“…The preservation of ischemic myocardium by early revascularization in animal models is a controversial issue (10)(11)(12)(13)(14)(15)(16)(17). Variability in experimental results may be due to many factors, including differences in collateral flow within (18) and between…”

Section: Resultsmentioning

confidence: 99%

“…The duration of coronary occlusion, after which reperfusion results in salvage of ischemic myocardium, seems to be species related. In dogs, reperfusion as early as 3 h resulted in a decrease of ultimate infarction in the majority of reports (10)(11)(12)(13)(14), but revascularization after 5 h or later produced either extension of infarction by hemorrhage (15) or no significant change in infarct size (13)(14)(15). Collateral circulation in pigs is less extensive than in dogs (19), and an equivalent coronary occlusion producing primarily a subendocardial infarction in the dog, results in a transmural infarct in the pig (20).…”

Section: Discussionmentioning

confidence: 99%

Coronary thrombolysis and infarct size reduction after intravenous infusion of recombinant tissue-type plasminogen activator in nonhuman primates.

Flameng¹,

Werf²,

Vanhaecke³

et al. 1985

J. Clin. Invest.

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Occlusive thrombus was produced by thrombin-induced coagulation in the left anterior descending coronary artery (LAD) of 16 open-chest baboons. In six control animals, occlusive thrombosis persisting over a period of 4 h as evidenced by coronary arteriography resulted in large transmural infarction (63.1±3.5% of the perfusion area). In 10 animals, tissue-type plasminogen activator obtained by recombinant DNA technology (rt-PA) was infused systemically at a rate of 1,000 IU (10 isg)/kg per min for 30 min after 30-80 min of coronary thrombosis. Reperfusion occurred within 30 min in nine animals. In one animal, intravenous infusion was followed by an intracoronary infusion at the same rate, which resulted in thrombolysis within 8 min. In the rt-PA group, mean duration of occlusion before reperfusion was 77±24 min. Reocclusion occurred in one animal. Recanalization resulted in an overall reduction of infarct size (37.8±5.9%, P < 0.05 versus controls). Residual infarction was related to the duration of occlusion (r = 0.80, P < 0.01). Reperfusion was associated with reduced reflow. Myocardial blood flow in the perfusion area of the LAD was only 70% of normal after 4 h despite perfect angiographic refilling.The infusion of rt-PA was not associated with systemic activation of the fibrinolytic system, fibrinogen breakdown, or clinically evident bleeding.It is concluded that intravenous infusion of rt-PA may recanalize thrombosed coronary vessels without inducing systemic lysis. The extent of residual infarction is closely related to the duration of coronary artery occlusion before thrombolysis.

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Coronary Artery Reperfusion

Cited by 269 publications

References 14 publications

Prolonged derangements of canine myocardial purine metabolism after a brief coronary artery occlusion not associated with anatomic evidence of necrosis

Prolonged derangements of canine myocardial purine metabolism after a brief coronary artery occlusion not associated with anatomic evidence of necrosis

The Coronary Circulation as a Target of Cardioprotection

Coronary thrombolysis and infarct size reduction after intravenous infusion of recombinant tissue-type plasminogen activator in nonhuman primates.

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