i°34 



HANDBOOK OF PHYSIOLOGY 



CIRCULATION II 



radial artery during reactive hyperemia. Circulation 

 Research 7 : 876-79, 1959. 



366. Wallenius, G. Renal clearance of dextran as measure 

 of glomerular permeability. Ada Soc. Med. Upsallen 59: 

 Suppl. 4, 1-91, 1954. 



367. Warren, M. F., and C. K. Drinker. The flow of lymph 

 from the lungs of the dog. Am. ./. Physiol. 136: 207-221, 



1942- 



368. Wasserman, K., J. D. Joseph, and H. S. Mayerson. 

 Kinetics of vascular and extravascular protein exchange 

 in unbled and bled dogs. Am. .1 . Physiol. 184: 175-182, 



'956- 



369. Wasserman, K.., L. Loeb, and H. S. Mayerson. Capil 

 lary permeability to macromolecules. Circulation Re- 

 search 3: 594-603, 1955. 



370. Wasserman, K.., and H. S. Mayerson. Exchange of 

 albumin between plasma and lymph. .4m. J. Physiol. 

 165: 15-26, 1951. 



371. Wasserman, K., and H. S. Mayerson. Mechanism of 

 plasma protein changes following saline infusions. Am. 

 J. Physiol. 170: 1-10, 1952- 



372. Wasserman, K., and H. S. Mayerson. Dynamics of 

 lymph and plasma protein exchange. Cardiologia 21: 

 296-307, 1952. 



373. Webb, R. C, Jr., and T. E. Starzl. The effect of blood 

 vessel pulsations on lymph pressure in large lymphatics. 

 Bull. Johns Hopkins Hasp. 93: 401-407, 1953. 



374. Weech, A. A., E. Goettsch, and E. B. Reeves. The 

 flow and composition of lymph in relation to the forma- 

 tion of edema. J. Exptl. Med. 60: 63-84, 1934. 



375. Wells, H. S., J. B. Youmans, and D. G. Miller, Jr. 

 Tissue pressure (intracutaneous, subcutaneous, and 

 intramuscular) as related to venous pressure, capillary 

 filtration, and other factors. J. Clin. Invest. 1 7 : 489-499, 



I938- 



376. Whipple, G. H., and S. C. Madden. Hemoglobin, 

 plasma protein and cell protein — their interchange and 

 construction in emergencies. Medicine 23: 215-224, 

 1944. 



377. White, H. L. Observations on the nature of glomerular 

 activity. Am. J. Physiol. 90: 689-704, 1929. 



378. White, 11. L. Measurement of cardiac output by a 

 continuously recording conductivity method. Am. J. 

 Physiol. 151:45-5/. >947- 



379. White, J. C, M. E. Field, and C. K. Drinker. On the 

 protein content and normal flow of lymph from the foot 

 of the dog. Am. J. Physiol. 103: 34-44, 1933. 



380. Wies, C. H., and J. P. Peters. The osmotic pressure of 

 proteins in whole serum. J. Clin. Invest. 16: 93-102, 



■937- 



381. Wilbrandt, W., E. Luscher, and H. Asper. Der Einfluss 

 von Thrombocytenprotein auf die Permeabilitat der 

 Blutkapillaren. Helvet. Physiol, et Pharmacol. Acta 14: C81- 

 84, 1956. 



382. Wilde, W. S. Transport through biological membranes. 

 Ann. Rev. Physiol. 17: 17-36, 1955. 



383. Wind, F. Versuche zur unmittelbaren Bestimmung des 

 Flussigkeitsaustritts aus den Blutkapillaren des Mesen- 

 terium und des Nierenglomerulus beim Kaltbliiter. I. 

 Mitteilung. Arch, exptl. Pathol. Pharmakol. Naunyn- 

 Schmiedeberg's 186: 161-184, 1937. 



384. Winton, F. R. Physical factors involved in the activities 

 of the mammalian kidney. Physiol. Revs. 1 7 : 408-435, 



1937- 



385. Wirz, H. Druckmessung in Kapillaren und Tubuli der 

 Niere durch Mikropunktion. Helvet. Physiol, et Pharmacol. 

 Acta 13:42-49, 1955. 



386. Yoffey, J. M., and F. C. Courtice. Lymphatics, Lymph 

 and Lymphoid Tissues (2nd ed.). Cambridge, Mass.: 

 Harvard Univ. Press 1956, pp. 87, 238. 



387. Zweifach, B. W. The structural basis of permeability 

 and other functions of blood capillaries. Symposia Qiiant. 

 Biol. 8: 216-223, 1940. 



388. Zweifach, B. W., and D. B. Metz. Selective distribu- 

 tion of blood through the terminal vascular bed of 

 mesenteric structures and skeletal muscle. Angiology 

 6: 282-290, 1955. 



