Published in J Physiol on July 01, 1967
Muscle protein synthesis in the streptozotocin-diabetic rat. A possible role for corticosterone in the insensitivity to insulin infusion in vivo. Biochem J (1982) 1.33
Starling curves and central venous pressure. Crit Care (2015) 0.96
Can Bayliss and Starling gut hormones cure a worldwide pandemic? J Physiol (2014) 0.81
The influence of variations in temperature and blood-pressure on the performance of the isolated mammalian heart. J Physiol (1912) 53.07
A note on some factors which determine the blood-flow through the coronary circulation. J Physiol (1913) 38.07
The part played by the lungs in the oxidative processes of the body. J Physiol (1913) 34.39
Muscle structure and theories of contraction. Prog Biophys Biophys Chem (1957) 32.09
On the significance of carbon dioxide for the heart beat. J Physiol (1910) 32.06
On the Absorption of Fluids from the Connective Tissue Spaces. J Physiol (1896) 31.82
The regulation of the heart beat. J Physiol (1914) 29.30
The regulation of the energy output of the heart. J Physiol (1927) 20.70
The movements and innervation of the small intestine. J Physiol (1899) 18.31
On the mechanical factors which determine the output of the ventricles. J Physiol (1914) 16.59
The mechanism of pancreatic secretion. J Physiol (1902) 15.82
The glomerular functions of the kidney. J Physiol (1899) 14.61
Observations on Venous Pressures and their Relationship to Capillary Pressures. J Physiol (1894) 13.52
The carbohydrate metabolism of the isolated heart lung preparation. J Physiol (1913) 11.74
On secretion by the isolated kidney. J Physiol (1922) 10.94
On the constancy of the systolic output under varying conditions. J Physiol (1914) 9.55
On the origin from the spinal cord of the vaso-dilator fibres of the hind-limb, and on the nature of these fibres. J Physiol (1901) 9.52
The Influence of Mechanical Factors on Lymph Production. J Physiol (1894) 8.80
On the part played by the suprarenals in the normal vascular reactions of the body. J Physiol (1912) 7.80
A Demonstration on Man of Electromotive Changes accompanying the Heart's Beat. J Physiol (1887) 7.07
The gaseous metabolism of the heart and lungs. J Physiol (1912) 6.65
The effect of various mechanical conditions on the gaseous metabolism and efficiency of the mammalian heart. J Physiol (1915) 6.46
On the Physiology of the Depressor Nerve. J Physiol (1893) 6.19
Ventricular function. I. Starling's law of the heart studied by means of simultaneous right and left ventricular function curves in the dog. Circulation (1954) 5.23
On the uniformity of the pancreatic mechanism in vertebrata. J Physiol (1903) 5.01
The potassium chloride contracture of the heart and its modification by calcium. J Physiol (1956) 4.84
The movements and the innervation of the large intestine. J Physiol (1900) 4.78
The staircase phenomenon and the action of calcium on the heart. J Physiol (1956) 4.50
The movements and innervation of the small intestine. J Physiol (1901) 4.45
A study of inotropic mechanisms in the papillary muscle preparation. J Gen Physiol (1959) 3.76
Force-velocity relations in mammalian heart muscle. Am J Physiol (1962) 3.68
On the Mode of Action of Lymphagogues. J Physiol (1894) 3.27
Mechanisms of cardiac control in exercise. Circ Res (1959) 2.56
Nervous control of the blood vessels. Physiol Rev (1955) 2.48
Myocardial contractility as described by ventricular function curves; observations on Starling's law of the heart. Physiol Rev (1955) 2.42
Studies on the first derivative of the ventricular pressure pulse in man. J Clin Invest (1962) 2.40
The mechanical properties of muscle. Br Med Bull (1956) 2.25
Determination of cardiac output by equating venous return curves with cardiac response curves. Physiol Rev (1955) 2.13
Cardiac control. Physiol Rev (1959) 2.09
Afterload as a primary determinat of ventricular performance. Am J Physiol (1963) 1.93
On some Points in the Innervation of the Mammalian Heart. J Physiol (1892) 1.91
Applicability of Starling's law of the heart to intact, unanesthetized animals. Physiol Rev (1955) 1.68
The velocity factor in cardiac work. J Physiol (1918) 1.62
On the relation of enterokinase to trypsin. J Physiol (1905) 1.61
Relatonship between left ventricular diastolic pressure and myocardial segment length and observations on the contribution of atrial systole. Circ Res (1960) 1.52
Left ventricular function at rest and during exercise. J Clin Invest (1959) 1.46
Further researches on antidromic nerve-impulses. J Physiol (1902) 1.42
The effect of glucose on the gaseous metabolism of the isolated mammalian heart. J Physiol (1914) 1.31
On the Absorption of Salt Solutions from the Pleural Cavities. J Physiol (1895) 1.25
The design of muscles. Br Med Bull (1956) 1.22
MYOCARDIAL MECHANICS: TENSION-VELOCITY-LENGTH RELATIONSHIPS OF HEART MUSCLE. Circ Res (1964) 1.21
Critical review of recent work on ventricular diastolic suction. Circ Res (1958) 1.17
Role of the Starling concept in regulation of the normal circulation. Physiol Rev (1955) 1.14
CARDIAC MUSCLE MECHANICS AND VENTRICULAR PERFORMANCE: FORCE AND TIME PARAMETERS. Am J Physiol (1964) 1.13
The adaptation of ventricular muscle to different circulatory conditions. Arch Int Physiol Biochim (1959) 1.06
Volume changes of the left ventricle during blood pooling and exercise in the intact animal; their effects on left ventricular performance. Physiol Rev (1955) 1.01
On the Origin from the Spinal Cord of the Vaso-Constrictor Nerves of the Portal Vein. J Physiol (1894) 0.99
Dynamics of heart failure. Br Med J (1952) 0.99
The thermodynamics of muscle. Br Med Bull (1956) 0.94
Neural mechanisms of cardiac control during exertion. Physiol Rev Suppl (1960) 0.93
Studies on Starling's law of the heart. V. Left ventricular function in man. J Clin Invest (1961) 0.93
Studies on Starling's law of the heart. VIII. Mechanical properties of human myocardium studied in vivo. Circulation (1962) 0.85
Contributions to the Physiology of Lymph Secretion. J Physiol (1893) 0.85
On the Electrical Phenomena accompanying Secretion in the Skin of the Frog. J Physiol (1886) 0.84
The morphological spectrum of aging and emphysematous lungs. Ann Intern Med (1962) 0.84
Factors altering the filling of the isolated left ventricle of the dog heart; effects of epinephrine and norepinephrine. Circ Res (1956) 0.83
The performance of the heart. Circulation (1960) 0.77
The effects of work load and heart rate on filling of the isolated right ventricle of the dog heart. Circ Res (1955) 0.76
William Maddock BAYLISS, 1860-1924: life and scientific work. Perspect Biol Med (1961) 0.76
The effect of inotropic drugs on filling of the isolated right ventricle of the dog heart. Circ Res (1955) 0.75