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Research Article Free access | 10.1172/JCI107894
Veterans Administration Hospital, Durham, North Carolina 27705
Department of Medicine, Division of Cardiology, Duke University Medical Center, Durham, North Carolina 27710
Find articles by Bache, R. in: JCI | PubMed | Google Scholar
Veterans Administration Hospital, Durham, North Carolina 27705
Department of Medicine, Division of Cardiology, Duke University Medical Center, Durham, North Carolina 27710
Find articles by Cobb, F. in: JCI | PubMed | Google Scholar
Veterans Administration Hospital, Durham, North Carolina 27705
Department of Medicine, Division of Cardiology, Duke University Medical Center, Durham, North Carolina 27710
Find articles by Greenfield, J. in: JCI | PubMed | Google Scholar
Published December 1, 1974 - More info
This study was designed to determine whether coronary vasodilation distal to a flow-limiting coronary artery stenosis could result in redistribution of myocardial blood flow to produce subendocardial underperfusion. Studies were performed in 10 awake dogs chronically prepared with electromagnetic flow-meters and hydraulic occluders on the left circumflex coronary artery. Regional myocardial blood flow was measured using radionuclide-labeled microspheres, 7-10 μm in diameter, injected into the left atrium. A 5-s coronary artery occlusion was followed by reactive hyperemia with excess inflow of arterial blood effecting 375±20% repayment of the blood flow debt incurred during occlusion. When, after a 5-s occlusion, the occluder was only partially released to hold arterial inflow to the preocclusion level for 20 s before complete release, the delayed reactive hyperemia was augmented (mean blood flow repayment = 610±45%, P < 0.01). This augmentation of the reactive hyperemia suggested that ischemia was continuing during the interval of coronary vasodilation when coronary inflow was at the preocclusion level. Measurements of regional myocardial blood flow demonstrated that endocardial flow slightly exceeded epicardial flow during control conditions. When arterial inflow was limited to the preocclusion rate during vasodilation after a 5-s total coronary artery occlusion, however, flow to the subepicardial myocardium was increased at the expense of underperfusion of the subendocardial myocardium. Thus, in the presence of a flow-limiting proximal coronary artery stenosis, ischemia-induced coronary vasodilation resulted in redistribution of myocardial blood flow with production of subendocardial ischemia in the presence of a net volume of arterial inflow which, if properly distributed, would have been adequate to prevent myocardial ischemia.
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