II |0 



HANDBOOK OF PHYSIOI.OCY 



CIRCULATION II 



76. Goldbloom, A. C, M. L. Kramer, and A. Lieberson. 

 Clinical studies in circulatory adjustments; physiologic 

 relation between posture and cardiac output. Arch. 

 Internal Med. 65: 175, 1940. 



77. Gorlin, R., and B. M. Lewis. Circulatory adjustments 

 to hypoxia in dogs. J. Appl. Physiol. 7: 180, 1954. 



78. Grodins, F. S. Integrative cardiovascular physiology: a 

 mathematical synthesis of cardiac and blood vessel hemo- 

 dynamics. Quart. Rev. Biol. 34: 93, 1959. 



79. Grollman, A. Effect of high altitude on cardiac output 

 of man and its related functions; account of experiments 

 conducted on summit of Pike's Peak, Colorado. Am. ./. 

 Physiol. 93: 19, 1930. 



80. Guntheroth, W. G. Function of liver and spleen as 

 venous reservoirs. Federation Proc. 1 7 : 63, 1 958. 



81. Guyton, A. C. Determination of cardiac output by 

 equating venous return curves with cardiac response 

 curves. Physiol. Revs. 35: 123, 1955. 



82. Guyton, A. C. Factors which determine the rate of 

 venous return to the heart. In: World //ends in Cardiology. 

 New York: Hoeber, 1956, p. 32. 



83. Guyton, A. C. The venous system and its role in the 

 circulation. Modern Concepts Cardiovascular Disease 27 : 



483, '95 8 - 



84. Guy'TON, A. C. La circulation veineuse. Symposia from the 

 Illrd World Congress of Cardiology. Brussels, 1958, p. 109. 



85. Guyton, A. C. Cardiac output and venous return in 

 heart failure. In: Cardiology. New York: McGraw-Hill, 

 vol. 4, 1959, p. 18. 



86. Guyton, A. C. Textbook of Medical Physiology (2nd ed.). 

 Philadelphia: Saunders, 1961, pp. 350 and 446. 



87. Guyton, A. C, B. Abernathy, J. B. Langston, B. N. 

 Kaufmann, and H. M. Fairchild. Relative importance 

 of venous and arterial resistances in controlling venous 

 return and cardiac output. Am. ./. Physiol. 197: 1008, 



'959- 



88. Guy'ton, A. C, and L. H. Adkins. Quantitative aspects 

 of collapse factor in relation to venous return (relation 

 between intra-abdominal pressure and venous pressure). 

 Am. J. Physiol. 177: 523, 1954. 



89. Guyton, A. C, G. C. Armstrong, and P. L. Chipley. 

 Pressure-volume curves of the entire arterial and venous 

 systems in the living animal. Am. ./. Physiol. 184: 253, 1956. 



90. Guyton, A. C, Batson, H. M., Jr., and G. M. Smith, 

 Jr. Adjustments of the circulatory system following very 

 rapid transfusion or hemorrhage. Am. ./. Physiol. 164: 



35'. '95'- 

 in. Guyton, A. C, and O. Carrier. Decrease in venous 



return caused by venous pulsation. Federation Proc. 20: 



1 20, 1 96 1 . 

 92 Guyton, A. C, and J. W. Crowill. Dynamics of the 



heart in shock. Federation Proc. 20: 51, Suppl. 9, 1961. 



93. Guyton, A. C, and F. P. Greganti. A physiologic 

 reference point for measuring circulatory pressures in the 

 dog — particularly venous pressure. Am. J. Physiol. 185: 



'37. '95 6 - 



94. Guyton, A. C, and A. VV. Lindsey. Effect of elevated 

 left atrial pressure and decreased plasma protein concen- 

 tration on the development of pulmonary edema. Circula- 

 tion Research 7: 649, 1959. 



95. Guyton, A. C, A. W. Lindsey', B. Abernathy, and 

 J. B. Langston. Mechanism of the increased venous 



return and cardiac output caused by epinephrine Am. 

 J. Physiol. 192: 126, 1958. 



96. Guyton, A. C, A. W. Lindsey, B. Abernathy, and T. Q. 

 Richardson. Venous return at various right atrial pres- 

 sures and the normal venous return curve. Am. J. Physiol. 

 189: 609, 1957. 



97. Guyton, A. C, A. VV. Lindsey, and J. J. Gilluly. The 

 limits of right ventricular compensation following acute 

 increase in pulmonary circulatory resistance. Circulation 

 Research 2: 326, 1954. 



98. Guyton, A. C, A. VV. Lindsey, and B. N. Kaufmann. 

 Effect of mean circulatory filling pressure and other 

 peripheral circulatory factors on cardiac output. Am. J. 

 Physiol. 1 80 : 463, 1 955. 



99. Guyton, A. C, A. W. Lindsey, B. N. Kaufmann, and 

 J. B. Abernathy. Effect of blood transfusion and hemor- 

 rhage on cardiac output and on the venous return curve. 

 Am. J. Physiol. 194: 263, 1958. 



100. Guyton, A. C, B. H. Douglas, J. B. Langston, and 

 T. Q. Richardson. Instantaneous increase in mean 

 circulatory pressure and cardiac output at onset of 

 muscular activity. Circulation Research. In press. 



101. Guyton, A. C, D. Polizo, and G. G. Armstrong. Mean 

 circulatory filling pressure measured immediately after 

 cessation of heart pumping. Am. J. Physiol. 179: 261, 1954. 



102. Guyton, A. C, and T. Q. Richardson. Effect of hema- 

 tocrit on venous return. Circulation Research 9: 157, 1961. 



103. Guyton, A. C, and K. Sagawa. Compensations of 

 cardiac output and other circulatory functions in areflex 

 dogs with large A-V fistulae. Am. J. Physiol. 200: 1157, 

 1 961. 



104. Guyton, A. C, and J. Satterfield. Factors concerned 

 in electrical defibrillation of the heart through the 

 unopened chest. Am. J. Physiol. 167: 81, 1951. 



105. Guyton, A. C, J. H. Satterfield, and J. W. Harris. 

 Dynamics of central venous resistance with observations 

 on static blood pressure. Am. J. Physiol. 169: 691, 1952. 



106. Harrison, T. R. Arterial and venous pressure factors 

 in circulatory failure. Physiol. Revs. 18: 86, 1938. 



107. Harrison, T. R., B. Friedman, G. Clark, and G. Resnik. 

 Cardiac output in relation to cardiac failure. Arch. 

 Internal Med. 54: 239, 1934. 



108. Harrison, T. R., VV. G. Harrison, J. A. Calhoun, 

 and J. P. Marsh. Congestive heart failure. Arch. Internal 

 Med. 50: 690, 1932. 



109. Hatcher, J. D., F. A. Sunahara, O. G. Edholm, and 

 J. M. Woolner. The circulatory adjustments to post- 

 hemorrhagic anemia in dogs. Ciiculation Research 2 : 499, 



'9 r >4 



1 10. Hochrein, M., and K. Matthes. Verschiedenheiten der 

 schlagvolumina und ungleichmassigkeiten der leistung 

 beicler ventrikel in ihrer auswirkung auf lungendepot 

 und herzdurchblutung. Pftiigers Arch. ges. Physiol. 231 : 

 207, 1932. 



mi. Holt, J. P. The measurement of venous pressure in man 

 eliminating the hydrostatic factor. Am. J. Physiol. 130: 



6 35> '94°- 



112. Holt, J. P. The collapse factor in the measurement of 

 venous pressure. Am. ./. Physiol. 134: 292, 1 94 1 . 



113. Holt, J. P. The effect of positive and negative intra- 

 thoracic pressure on peripheral venous pressure in man. 

 Am. J. Physiol. 139: 208, 1943. 



