Mortality from breast cancer after irradiation during fluoroscopic examinations in patients being treated for tuberculosis.

The increasing use of mammography to screen asymptomatic women makes it important to know the risk of breast cancer associated with exposure to low levels of ionizing radiation. We examined the mortality from breast cancer in a cohort of 31,710 women who had been treated for tuberculosis at Canadian sanatoriums between 1930 and 1952. A substantial proportion (26.4 percent) had received radiation doses to the breast of 10 cGy or more from repeated fluoroscopic examinations during therapeutic pneumothoraxes. Women exposed to greater than or equal to 10 cGy of radiation had a relative risk of death from breast cancer of 1.36, as compared with those exposed to less than 10 cGy (95 percent confidence interval, 1.11 to 1.67; P = 0.001). The data were most consistent with a linear dose-response relation. The risk was greatest among women who had been exposed to radiation when they were between 10 and 14 years of age; they had a relative risk of 4.5 per gray, and an additive risk of 6.1 per 10(4) person-years per gray. With increasing age at first exposure, there was substantially less excess risk, and the radiation effect appeared to peak approximately 25 to 34 years after the first exposure. Our additive model for lifetime risk predicts that exposure to 1 cGy at the age of 40 increases the number of deaths from breast cancer by 42 per million women. We conclude that the risk of breast cancer associated with radiation decreases sharply with increasing age at exposure and that even a small benefit to women of screening mammography would outweigh any possible risk of radiation-induced breast cancer.

[1]  C. Land,et al.  Breast cancer incidence among atomic bomb survivors: implications for radiobiologic risk at low doses. , 1979, Journal of the National Cancer Institute.

[2]  J. A. Myrden,et al.  Breast cancer following multiple fluoroscopies during artificial pneumothorax treatment of pulmonary tuberculosis. , 1969, Canadian Medical Association journal.

[3]  G R Howe,et al.  A generalized iterative record linkage computer system for use in medical follow-up studies. , 1981, Computers and biomedical research, an international journal.

[4]  Estimated benefits and risks of screening for breast cancer. , 1981, Canadian Medical Association journal.

[5]  R. Monson,et al.  Breast cancer in women after repeated fluoroscopic examinations of the chest. , 1977, Journal of the National Cancer Institute.

[6]  C. Land,et al.  Incidence of female breast cancer among atomic bomb survivors, Hiroshima and Nagasaki, 1950-1990. , 1987, Radiation research.

[7]  Standards,et al.  The effects on populations of exposure to low levels of ionizing radiation : report of the advisory committee on the biological effects of ionizing radiation , 1972 .

[8]  J. Boice,et al.  Estimation of breast doses and breast cancer risk associated with repeated fluoroscopic chest examinations of women with tuberculosis. , 1978, Radiation research.

[9]  J. B. Bridges,et al.  BREAST CANCER FOLLOWING MULTIPLE FLUOROSCOPIES , 2007 .

[10]  R. Ullrich,et al.  Radiation carcinogenesis: time-dose relationships. , 1987, Radiation research.

[11]  Norman E. Breslow,et al.  Statistical Methods in Cancer Research, Vol. II: The Design and Analysis of Cohort Studies. , 1990 .

[12]  A. Miller,et al.  Organ dose per unit exposure resulting from fluoroscopy for artificial pneumothorax. , 1978, Health physics.

[13]  C E Land,et al.  Breast cancer risk from low-dose exposures to ionizing radiation: results of parallel analysis of three exposed populations of women. , 1980, Journal of the National Cancer Institute.

[14]  B. Pasternack,et al.  Breast neoplasms in women treated with x-rays for acute postpartum mastitis. , 1977, Journal of the National Cancer Institute.

[15]  A. Upton Radiobiological effects of low doses. Implications for radiological protection. , 1977, Radiation Research.