Idiopathic hypertrophic subaortic stenosis. Effects of changes in heart rate on the severity of obstruction to left ventricular outflow.
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J. Ross | E. Braunwald | L. Cohn | D. Mason | D. Mason | John Ross | Eugene Braunwald | Lawrence H. Cohn
[1] J. Ross,et al. Comparison of the Force‐Velocity Relation and the Ventricular Function Curve as Measures of the Contractile State of the Intact Heart , 1966, Circulation research.
[2] E. Sonnenblick,et al. Effects of Heart Rate on the Dynamics of Force Development in the Intact Human Ventricle , 1966, Circulation.
[3] E. Braunwald,et al. Cardiac dimensions in intact unanesthetized man. VI. Effects of changes in heart rate. , 1966, Journal of applied physiology.
[4] J. Ross,et al. Effects of Changes in Body Position on the Severity of Obstruction to Left Ventricular Outflow in Idiopathic Hypertrophic Subaortic Stenosis , 1966, Circulation.
[5] E. Braunwald,et al. Determinants of atrial contractile force in the intact heart. , 1965, The American journal of physiology.
[6] M. N. Levy,et al. DEPRESSION OF VENTRICULAR CONTRACTILITY BY STIMULATION OF THE VAGUS NERVES. , 1965 .
[7] E. Braunwald,et al. MYOCARDIAL FORCE-VELOCITY RELATIONS STUDIED IN INTACT UNANESTHETIZED MAN. , 1965, The Journal of clinical investigation.
[8] E. Braunwald,et al. THE CONTRACTILE PROPERTIES OF HUMAN HEART MUSCLE: STUDIES ON MYOCARDIAL MECHANICS OF SURGICALLY EXCISED PAPILLARY MUSCLES. , 1965, The Journal of clinical investigation.
[9] C. Lambrew,et al. Idiopathic Hypertrophic Subaortic Stenosis: I. A Description of the Disease Based Upon an Analysis of 64 Patients , 1964, Circulation.
[10] J. Ross,et al. The Circulatory Response of Patients with Idiopathic Hypertrophic Subaortic Stenosis to Nitroglycerin and to the Valsalva Maneuver , 1964, Circulation.
[11] J. C. Ross,et al. The effect of changes in the pulmonary vascular bed produced by atropine, pulmonary engorgement, and positive-pressure breathing on diffusing and mechanical properties of the lung. , 1963, The Journal of clinical investigation.
[12] J. Siegel,et al. Isometric Time‐Tension Relationships as an Index of Myocardial Contractility , 1963, Circulation research.
[13] E. Rapaport,et al. The influence of heart rate on left ventricular volume in dogs. , 1963, The Journal of clinical investigation.
[14] Sonnenblick Eh,et al. Implications of muscle mechanics in the heart. , 1962, Federation proceedings.
[15] R. Whalen,et al. Effect of Ventricular Rate on the Cardiac Output in the Dog with Chronic Heart Block , 1962, Circulation research.
[16] J. Ross,et al. Studies on Starling's Law of the Heart: Determinants of the Relationship Between Left Ventricular End‐Diastolic Pressure and Circumference , 1960 .
[17] J. P. Gilmore,et al. Regulation of Ventricular Contraction: Influence of Cardiac Sympathetic and Vagal Nerve Stimulation on Atrial and Ventricular Dynamics , 1960, Circulation research.
[18] R. F. Rushmer. Constancy of stroke volume in ventricular responses to exertion. , 1959, The American journal of physiology.
[19] E. Braunwald,et al. Determinants of Duration and Mean Rate of Ventricular Ejection , 1958, Circulation research.
[20] R GORLIN,et al. Hydraulic formula for calculation of the area of the stenotic mitral valve, other cardiac valves, and central circulatory shunts. I. , 1951, American heart journal.
[21] Carl J. Wiggers,et al. THE CONTOUR OF THE VENTRICULAR VOLUME CURVES UNDER DIFFERENT CONDITIONS , 1922 .
[22] E. Starling,et al. The regulation of the heart beat , 1914, The Journal of physiology.
[23] Y. Henderson. THE VOLUME CURVE OF THE VENTRICLES OF THE MAMMALIAN HEART, AND THE SIGNIFICANCE OF THIS CURVE IN RESPECT TO THE MECHANICS OF THE HEART-BEAT AND THE FILLING OF THE VENTRICLES , 1906 .
[24] R. Woodworth. MAXIMAL CONTRACTION, "STAIRCASE" CONTRACTION, REFRACTORY PERIOD, AND COMPENSATORY PAUSE, OF THE HEART , 1902 .