RMI Nuclear Justice Documents

159. 160. Harley, N.H., Albert, R.=., Shore, R.E., et al. Follow-up of patients 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- hood. Scicace 160: 159-63 (1968). 161. Hempeimann, L.H., Hall, W.J., Phillips, M., Cooper, R.A., and Ames, W.R. Neoplasms in persons treated with x rays in infancy: Fourth survey in 162. Hempelmann, L.H. Thyroid neoplasms following irradiation in infancy, in: Radiation-Associated Thyroid Carcinoma, pp. 221-9, L.J. DeGroot et 20 years. J. Nat. Cancer Inst. 55: 519 (1975). 163. al., Eds., Grune & Stratton, New York, 1977. Maxon, H.R., Thomas, S.R., Saenger, E.L., Buncher, C.R., and Kereiakes, 164. Maxon, H.R., Saenger, E.L., Thomas, S.R., Buncher, R.C., Kereiakes, 165. 166. J.G. LIonizing irradiation and the induction of clinically significant disease in the human thyroid gland. Am. J. Med. 63: 967-8 (1977). J.G., Shafer, M.L., and McLaughlin, C.A. Clinically important radiation-associated thyroid disease: A controlled study. JAMA 244: 1802-7 (1980). Modan, B., Baidatz, D., Mart, H., et al. Radiation-induced head and neck tumors. Lancet 1: 277 (1974). Modan, B., Ron, E., and Werner, A. Thyroid neoplasas in a population irradiated for scalp tinea in childhood, in: Radiation-Associated Thy- roid Carcinoma, pp. 449-57, L.J. DeGroot et al., Eds., Grune & Stratton, i67. 168. 169. 170. 171. 172. New York, 1977. Pifer, J.W., Toyooka, E.T., Murray, R.W., et al. Neoplasms in children treated with x rays for thymic enlargement. I. Neoplasms and mortal- 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). Refetoff, S., Harrison, J., Karanfilski, B.T., et ai. Continuing occurrence of thyroid carcinoma after irradiation to the neck in infancy and childhood. New Eng. J. Med. 292: 171-5 (1975). Schneider, A.B., Favus, M.J., Stachura, M., Arnold, J., Arnold, M.J., and Frohman, L.A. Incidence, prevalence and characteristics of radia~ tion-induced thyroid tumors. Am. J. Med. 64: 243-52 (1978). Vander, J.B., Gaston, E.A., and Dawber, T.R. bomb survivors of Hiroshima and Nagasaki. 173. 174. The significance of non- toxic thyroid nodules. Final report of a l5-year study of the incidence of thyroid malignancy. Ann. Int. Med. 69: 537 (1968). Wood, J.W., Tamagaki, H., Neriishi, S., Sato, T., Shelfon, W.F., Archer, P.G., Hamilton, H.B., and Johnson, K.G. Thyroid carcinoma in atomic (1969). Am. J. Epidemiol. 89: 4 Becker, D.V., McConahey, W.M., Dobyns, B.M., et al. The results of the thyrotoxicosis therapy follow-up study. Further Advances in Thyroid Research, Vol. 1, p. 603, K. Fellinger and R. Hofer, Eds., Gistel, Vienna, 1971. Dobyns, B.M. Radiation hazard. Experience with therapeutic and diagnos- tie 134, in: Radiation-Associated Thyroid Carcinoma, pp. 439-83, L.J. DeGroot et al., Eds., Grune & Stratton, New York, 1977. -~ 98 - nie: