RMI Nuclear Justice Documents

159. Harley, N.H., Albert, R.E., Shore, R.E., et al. Follow-up of patients 160. treated by x-ray epilation for tinea capitis: Estimate of the dose to the thyroid and pituitary glands and other structures of the head and neck. Phys. Med. Biol. 21: 631-42 (1976). Hempelmann, L.H. Risk of thyroid neoplasms after irradiation in child- 161. Hempelmann, L.H., Hall, W.J., Phillips, M., Cooper, R.A., and Ames, W.R. 162. 163. 164. hood. Science 160: 159-63 (1968). Neoplasms in persons treated with x rays in infancy: Fourth survey in 20 years. J. Nat. Cancer Inst. 55: 519 (1975). Hempelmann, L.H. Thyroid neoplasms following irradiation in infancy, in: Radiation~Associated Thyroid Carcinoma, pp. 221-9, L.J. DeGroot et al., Eds., Grune & Stratton, New York, Maxon, H.R., Thomas, Maxon, H.R., Saenger, S.R., 1977. Saenger, E.L., Buncher, C.R., and Kereiakes, Thomas, $.R., Buncher, R.C., Kereiakes, J.G. lLIonizing irradiation and the induction of clinically significant disease in the human thyroid gland. Am. J. Med. 63: 967-8 (1977). E.L., J.G., Shafer, M.L., and McLaughlin, C.A. tion-associated thyroid disease: (1980). Clinically important radia- JAMA 244: 1802-7 A controlled study. Radiation-induced head and 165. Modan, B., Baidatz, D., Mart, H., et al. 166. Thyroid neoplasms in a population Modan, B., Ron, E., and Werner, A. irradiated for scalp tinea in childhood, in: Radiation-Associated Thyroid Carcinoma, pp. 449-57, L.J. DeGroot et al., Eds., Grune & Stratton, New York, 1977. Neoplasms in children Pifer, J.W., Toyooka, E.T., Murray, R.W., et al. 167. 168. 169. neck tumors. Lancet 1: 277 (1974). I. Neoplasms and mortaltreated with x rays for thymic enlargement. ity. J. Nat. Cancer Inst. 31: 1333-56 (1963). Pincus, R.A., Reichlin, S., and Hempelmann, L.H. Thyroid abnormalities after radiation exposure in infancy. Ann. Int. Med. 66: 1154-64 (1967). Continuing occur- Refetoff, S., Harrison, J., Karanfilski, B.T., et al. rence of thyroid carcinoma after irradiation to the neck in infancy and childhood. New Eng. J. Med. 292: 171-5 (1975). 170. Schneider, A.B., Favus, M.J., Stachura, M., Arnold, J., Arnold, M.J., 71. Vander, J.B., Gaston, E.A., and Dawber, T.R. Incidence, prevalence and characteristics of radiaand Frohman, L.A. tion-induced thyroid tumors. Am. J. Med. 64: 243-52 (1978). toxic thyroid nodules. of thyroid malignancy. The significance of non- Final report of a l5-year study of the incidence Ann. Int. Med. 69: 537 (1968). 172. Wood, J.W., Tamagaki, H., Neriishi, S., Sato, T., Shelfon, W.F., Archer, Thyroid carcinoma in atomic P.G., Hamilton, H.B., and Johnson, K.G. Am. J. Epidemiol. 89: 4 bomb survivors of Hiroshima and Nagasaki. 173. Becker, D.V., McConahey, W.M., Dobyns, B.M., et al. (1969). thyrotoxicosis therapy follow-up study. search, Vol. 174. 1, p. The results of the Further Advances in Thyroid Re- 603, K. Fellinger and R. Hofer, Eds., Gistel, Vienna, 1971. Dobyns; B.M. Radiation hazard. Experience with therapeutic and diagnostic 1311, in: Radiation-Associated Thyroid Carcinoma, pp. 439-83, L.J. DeGroot et al., Eds., Grune & Stratton, - 98 - New York, 1977.