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Free access | 10.1172/JCI110351
Department of Medicine, State University of New York at Buffalo, Buffalo, New York 14214
Department of Mechanical Engineering, State University of New York at Buffalo, Buffalo, New York 14214
Department of Physiology, State University of New York at Buffalo, Buffalo, New York 14214
Erie County Medical Center, Buffalo, New York 14214
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Department of Medicine, State University of New York at Buffalo, Buffalo, New York 14214
Department of Mechanical Engineering, State University of New York at Buffalo, Buffalo, New York 14214
Department of Physiology, State University of New York at Buffalo, Buffalo, New York 14214
Erie County Medical Center, Buffalo, New York 14214
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Department of Medicine, State University of New York at Buffalo, Buffalo, New York 14214
Department of Mechanical Engineering, State University of New York at Buffalo, Buffalo, New York 14214
Department of Physiology, State University of New York at Buffalo, Buffalo, New York 14214
Erie County Medical Center, Buffalo, New York 14214
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Department of Medicine, State University of New York at Buffalo, Buffalo, New York 14214
Department of Mechanical Engineering, State University of New York at Buffalo, Buffalo, New York 14214
Department of Physiology, State University of New York at Buffalo, Buffalo, New York 14214
Erie County Medical Center, Buffalo, New York 14214
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Department of Medicine, State University of New York at Buffalo, Buffalo, New York 14214
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Erie County Medical Center, Buffalo, New York 14214
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Department of Medicine, State University of New York at Buffalo, Buffalo, New York 14214
Department of Mechanical Engineering, State University of New York at Buffalo, Buffalo, New York 14214
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Erie County Medical Center, Buffalo, New York 14214
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Department of Medicine, State University of New York at Buffalo, Buffalo, New York 14214
Department of Mechanical Engineering, State University of New York at Buffalo, Buffalo, New York 14214
Department of Physiology, State University of New York at Buffalo, Buffalo, New York 14214
Erie County Medical Center, Buffalo, New York 14214
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Published October 1, 1981 - More info
The proposal that diastolic coronary flow is regulated by an intramyocardial “back-pressure” that substantially exceeds coronary venous and ventricular diastolic pressures has been examined in an open-chest canine preparation in which instantaneous left circumflex pressure and flow could be followed to cessation of inflow during prolonged diastoles. Despite correlation coefficients consistently >0.90, pressure-flow data during individual diastoles were concave to the flow axis before and during pharmacologically induced maximum coronary vasodilation. Data were better fitted (P < 0.01) by second-order equations than by linear equations in >90% of cases. Second-order pressure-axis intercepts (Pf=0)1 averaged 29±7 (SD) mm Hg before vasodilation and 15±2 mm Hg during vasodilation; left and right atrial pressures were always substantially lower (8±3 and 5±2 mm Hg before vasodilation and 8±2 and 4±1 mm Hg during dilation). Values of Pf=0 before vasodilation varied directly with levels of coronary inflow pressure. A modification of the experimental preparation in which diastolic circumflex pressure could be kept constant was used to evaluate the suggestion that Pf=0 measured during long diastoles are misleadingly high because of capacitive effects within the coronary circulation as inflow pressure decreases. Decreases in Pf=0 attributable to capacitive effects averaged only 5.9±3.0 mm Hg before vasodilation and were smaller during dilation. We conclude that Pf=0 is a quantitatively important determinant of coronary driving pressure and flow, resulting from both factors related to, and independent of, vasomotor tone. Adjustments of flow during changing physiological situations may involve significant changes in Pf=0 as well as in coronary resistance.