Sec. 30.24] • BIBLIOGRAPHY 591 



I 21 Gorbman, A., and C. W. Greaser: Accumulation of radioactive iodine by the 



endostyle of larval lampreys and the problem of homology of the thyroid, /. Exptl. 



Zoo!., 89, 391-405 (1942). 

 I 22 Gorbman, A., and H. M. Evans: Correlation of histological differentiation with 



beginning of function of developing thyroid gland of frog, Proc. Soc. Exptl. Biol. 



Med., 47, 103-106 (1941). 

 I 23 Gorbman, A., and H. M. Evans: Beginning of function in the thyroid of the fetal 



rat, Endocrinology, 32, 113-115 (1943). 

 I 24 Greenberg, D. M., R. B. Aird, M. D. D. Boelter, W. W. Campbell, W. E. 



Cohn, and M. M. Murayama: A study with radioactive isotopes of the permeability 



of blood-cerebrospinal fluid barrier to ions, Am. J . Physiol., 140, 47-64 (1944). 

 I 25 Gross, J.: The localization of thyroxine containing radioactive iodine in the tissues 



of the rat, Anat. Record, 97, 339 (1947). 

 I 26 Gross, J., and C. P. Leblond: The histological localization of radioactive elements; 



a review, McGill Med. J., 15, 399-438 (1946). 

 I 27 Gross, J., and C. P. Leblond: Distribution of a large dose of thyroxine labeled with 



radioiodine in the organs and tissues of the rat, /. Biol. Chem., 171, 809-820 (1947). 

 I 28 Hamilton, J. G.: Rates of absorption of radioactive isotopes of sodium, potassium, 



chlorine, bromine and iodine in normal human subjects, Am. J. Physiol., 124, 



667-668 (1938). 

 I 29 Hamilton, J. G., and J. H. Lawrence: Recent clinical developments in the 



therapeutic application of radiophosphorus and radioiodine, /. Clin. Invest., 21, 624 



(1942). 

 I 30 Hamilton, J. G., and M. H. Soley: Studies in iodine metabolism by use of new 



radioactive isotope of iodine, Am. J. Physiol., 127, 557-572 (1939). 

 I 31 Hamilton, J. G., and M. H. Soley: A comparison of the metabolism of iodine and 



of element 85 (eka-iodine), Proc. Natl. Acad. Sci. U.S., 26, 483-489 (1940). 

 I 32 Hamilton, J. G., and M. H. Soley: Studies in iodine metabolism of thyroid gland 



in situ by use of radio-iodine in normal subjects and in patients with various types 



of goiter, Am. J. Physiol., 131, 135-143 (1940). 

 I 33 Hamilton, J. G., and M. H. Soley: Studies in physiology of normal and diseased 



thyroids of human beings by the use of radioactive iodine, J. Applied Phys., 12, 



314 (1941). 

 I 34 Hamilton, J. G., M. H. Soley, and K. B. Eichhorn: Deposition of radioactive 



iodine in human thyroid tissue Univ. Calif. {Berkeley) Pub. Pharmacol., 1, 339-367 



(1941). 

 I 35 Hamilton, J. G., M. H. Soley, W. A. Reilly, and K. B. Eichhorn: Radioactive 



iodine studies in childhood hyperthyroidism, A m. J. Diseases Children, 66, 495-502 



(1943). 

 I 36 Hertz, S.: Radioactive iodine as an indicator in thyroid physiology. Observations 



on rabbits and on goitre patients, Am. J, Roentgenol. Radium Therap., 46, 467-468 



(1941). 

 I 37 Hertz, S., and A. Roberts: Radioactive iodine as indicator in thyroid physiology. 



III. Iodine collection as criterion of thyroid function in rabbits injected with thyro- 

 tropic hormone, Endocrinology, 29, 82-88 (1941). 

 I 38 Hertz, S., and A. Roberts: Collection of iodine in the thyroid as a differential cri- 

 terion in the diagnosis of two types of Graves' disease, /. Clin. Invest. ,20, 445 (1941). 

 I 39 Hertz, S., and A. Roberts: Radioactive iodine as an indicator in thyroid phy- 

 siology. V. The use of radioactive iodine in the differential diagnosis of two 

 types of Graves' disease, J. Clin. Invest., 21, 31-32 (1942). 



