8 3 8 



HANDBOOK OF PHYSIOLOGY 



CIRCULATION II 



I 08. 



109. 



"3- 

 114. 



I 15- 



116. 



117. 

 118. 

 119. 



I2 3- 

 124. 



Remington, J. W., and E. H. Wood. Formation of the 

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433. !95 6 - I2 5- 



Reuterwall, O. P. Die Elastizitat der Gefasswande und 



die Methoden ihrer naheren Priifung. Acta Med. Stand. 126. 



Suppl. 2, 1921. 



Richards, T. G., and T. D. Williams. Velocity changes 



in the arterial and femoral arteries of dogs during the 127. 



cardiac cycle. J. Physiol., London 120: 257, 1953. 



Roach, M. R., and A. C. Burton. The reason for the 128. 



shape of the distensibility curves of arteries. Can. J. 



Biochem. and Physiol. 35: 681, 1957. 



Roy, C. S. Elastic properties of the arterial wall. J. 129. 



Physiol., London 3: 125, 1880. 



Rushmer. R. F. Pressure-circumference relations of the 



aorta. Am. J. Physiol. 183: 545, 1955. 130. 



Ryan, J. M., R. W. Stacy, and R. N. Watman. Role of 



abdominal aortic branches on pulse wave contour genesis. 



Circulation Research 4: 676, 1956. 



Schmitt, F. Beitrag zur Frage der Reflexionsbedingungen 131. 



und Existenz stehender VVellen im arteriellen Kreis- 



laufsystem. Z. Biol. 101 : 259, 1943. 



Schnabel, T. G., H. F. Fitzpatrick, L. H. Peterson, 132. 



W. J. Kashkind, D. Talley, and R. L. Rapharal. A 



technique of vascular catheterization with small plastic 



catheters. Circulaltm 5: 257, 1952. 133. 



Sinn, E. Die Elastizitat der Arterieren und ihre Bedeutung 



fur die Dynamik des arteriellen Systems. Akad. Wiss. 134. 



Lit., Main.; 1956, p. 647. 



Speden, R. N. The effect of initial strip length on the 135. 



noradrenaline-induced isometric contraction of arterial 



strips. J. Physiol., London 154: 15, i960. 136. 



Spencer, M. P., F. R. Johnston, and A. B. Denison. 



Dynamics of the normal aorta. Circulation Research 6: 137. 



491. >95 8 - 



Spencer, M. P., and A. P. Denison, Jr. The aortic flow 



as related to differential pressure. Circulation Research 4: 138. 



476, 1956. 



Smith, D. J. Immediate sensitization of isolated swine 



arteries and their vasa vasorum to epinephrine, acetyl- 139. 



choline and histamine by thyroxine. Am. ./. Physiol. 177: 



7. '954- 



Stacy, R. W. Reaction rate kinetics and some tissue 



mechanical properties. In: Tissue Elasticity. Washington, 140. 



D. C: Am. Physiol. Soc, 1957, p. 131 ■ 



Stacy, R. W., and F. M. Giles. Computed analysis of 141 



arterial properties. Circulation Research 7 : 1 03 1 , 1 959. 



Starr, I., and A. Schild. A test of the aortic compression 



chamber hypothesis and of two stroke volume methods 



based on it. J. Appl. Physiol. 1 1 : 169, 1957. 



Van Citters, R. L. Longitudinal waves in the walls of 



fluid-filled elastic tubes. Circulation Research 8: 1145, i960. 



Van Citters, R. L., and R. F. Rushmer. Longitudinal 



and radial strain in pulse wave transmission. Federation 



Proc. 19: 104, 1960. 



Wagner, R., and E. Kapal. Uber Eigenschaften des 



Aortenwindkessels. Z. Biol. 104: 169, 1951. 



Warner, H. R. Synthesis of central arterial pressure 



pulse contour from recording of radial artery pressure in 



man. Am. J. Physiol. 183: 670, 1955. 



Warner, H. R. A study of the mechanisms of pressure 



wave distortion by arterial walls using an electrical 



analog. Circulation Research 5: 79, 1957. 



Warner, H. R., H. J. C. Swan, D. C. Connolly, R. G. 



Tompkins, and E. H. Wood. Quantitation of beat-to-beat 



changes in stroke volume from the aortic pulse contour 



in man. J. Appl. Physiol. 5: 495, 1 953- 



Wetterer, E. Flow and pressure in the arterial system, 



their hemodynamic relationship, and the principles of 



their measurement. Minn. Med. 37: 77, 1954. 



Wetterer, E. Die Wirkung der Herztatigkeit auf die 



Dynamik des Arteriensystems. Verhandl. deut. Ges. Kreis- 



laufforsch. 22: 26, 1956. 



Wezler, K. Der Ruhezustand des Kreislaufs. Z. Biol. 



9 8: 43 8 . '93 8 - 



Wezler, K., and A. Boger. Die Dynamik des arteriellen 



System. Ergeb. Physiol. 41: 292, 1939. 

 Wiggers, C. J . The Pressure Pulses in the Cardiovascular 

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Wiggers, C. J. Circulation in Health and Disease. Phila- 

 delphia: Lea & Febiger, 1923. 



Wiggers, C. J. The influence of vascular factors on mean 

 pressure, pulse pressure and phasic peripheral flow. Am. 

 J. Physiol. 123: 644, 1938. 



Wiggers, C. J., and R. Wegria. Active changes in size 

 and distensibility of the aorta during acute hypertension. 

 Am. J. Physiol. 124: 603, 1938. 



Womerslky, J. R. The mathematical analysis of the 

 arterial circulation in a state of oscillatory motion. WADC 

 (Wright Air. Develop. Center), Tech. Rept. No. 56/614, 

 1958. 



Woodbury, R. A., and W. F. Hamilton. Blood pressure 

 studies in small animals. Am. J. Physiol. 119: 663, 1 937. 

 Zatzman, M., R. W. Stacy, J. Randall, and A. 

 Eberstein. Time course of stress relaxation in isolated 

 arterial segments. Am. J. Physiol. 177: 299, 1954. 



