1194 RADIATION BIOLOGY 



Evans, R. D. (1950a) Quantitative aspects of chronic radium and mesothorium 

 poisoning and their relation to the establishment of maximum permissible doses. 

 6th Intern. Congr. Radiology, pp. 8-9. 



(1950b) Quantitative aspects of radiation carcinogenesis in humans. Acta 



Unio Intern, contra Cancrum, 6: 1229-1237. 

 - and C. Goodman (1940) Determination of the thoron content of air and its 



bearing on lung cancer hazards in industry. J. Ind. Hyg. Toxicol., 22: 89-99. 



— , R. S. Harris, and J. W. M. Bunker (1944) Radium metabolism in rats, and 



the production of osteogenic sarcoma by experimental radium poisoning. Am. J. 



Roentgenol. Radium Therapy, 52: 353-373. 

 Ewing, J. (1926) Radiation osteitis. Acta Radiol., 6: 399-412. 

 Feygin, S. (1914) Du cancer radiologique. These Fac. Med. Paris. 

 Figge, F. H. J. (1947) Cosmic radiation and cancer. Science, 105: 323-325. 



- (1949) Studies on the influence of penetrating radiations on carcinogenesis. 



Acta Unio Intern, contra Cancrum, 6: 782-784. 

 Folley, Jarrett H., Wayne Borges, and Takuso Yamawaki (1952) The incidence of 



leukemia in survivors of the atomic bomb in Hiroshima and Nagasaki. Am. J. 



Med., 13: 311-321. 

 Foulds, L. (1939) The production of transplantable carcinoma and sarcoma in 



guinea-pigs by injections of thorotrast. Am. J. Cancer, 35: 363-373. 

 Franks, W. R., and G. E. Meek (1950) Influence of background radiation on methyl- 



cholanthrene carcinogenesis in mice. Cancer Research, 10: 217. 

 Frieben (1902) Demonstration eines Cancroids des rechten Handriickens, das sich 



nach langdaurnder Einwirking von Rontgenstrahlen entwickelt hatte. Fortschr. 



Gebiete Rontgenstrahlen, 6: 106. 

 Furth, Jacob (1935) Transmission of myeloid leukemia of mice. Its relation to 



myeloma. J. Exptl. Med., 61: 423-445. 



(1946) Prolongation of life with prevention of leukemia by thymectomy in 



mice. J. Gerontol., 1: 46-54. 



(1949) Relation of pregnancies to induction of ovarian tumors by X rays. 



Proc. Soc. Exptl. Biol. Med., 71: 274-277. 



and M. C. Boon (1943) Enhancement of leukemogenic action of methyl- 



cholanthrene by pre-irradiation with X-rays. Science, 98: 138-139. 



, , and N. Kaliss (1944) On the genetic character of neoplastic cells 



as determined in transplantation experiments. With notes on the somatic 

 mutation theory. Cancer Research, 4: 1-10. 



and W. T. Burnett, Jr. (1951) Hormone-secreting transplantable neoplasms 



of the pituitary induced by I 131 . Proc. Soc. Exptl. Biol. Med., 78: 222-224. 



- and J. S. Butterworth (1936) Neoplastic diseases occurring among mice 

 subjected to general irradiation with X rays. II. Ovarian tumors and associated 

 lesions. Am. J. Cancer, 28: 66-95. 



- and O. B. Furth (1936) Neoplastic diseases produced in mice by general 

 irradiation with X rays. I. Incidence and types of neoplasms. Am. J. Cancer, 

 28: 54-65. 



E. L. Gadsden, and W. T. Burnett, Jr. (1952) Autonomous transplantable 



, _. — , _. , - 



pituitary tumors arising in growths dependent on absence of the thyroid gland. 

 Proc. Soc. Exptl. Biol. Med., 80: 4-7. 

 Gardner, W. U. (1948) Hormonal imbalances in tumorigenesis. Cancer Research, 

 8: 397-411. 



- (1950) Ovarian and lymphoid tumors in female mice subsequent to roent- 

 genray irradiation and hormone treatment. Proc. Soc. Exptl. Biol. Med., 75: 

 434-436. 

 Glasser, Otto (1950) Medical physics. The Year Book Publishers, Chicago, Vol. 2. 



