Scientific Protocol for the Study of Thyroid Cancer and Other Thyroid Disease in Belarus Following the Chernobyl Accident
Iodine-131(131I) and other radioisotopes of Iodine are contained in fallout from atmospheric nuclear weapons tests and are among the radionuclides most likely to be released in a nuclear reactor accident. In spite of nearly 50 years of experience, the risk of thyroid disease, especially thyroid cancer, attributable to exposure to 131I remains unknown, although the carcinogenic potential of x-ray and gamma-ray exposure of the thyroid is reasonably well known. The available data also indicate that children face greater risks of radiation-induced thyroid cancer than do adults.
The nuclear power plant accident at Chernobyl released large quantities of 131I and other radioisotopes of iodine into the atmosphere, contaminating thousands of square kilometers and exposing millions of people. It is proposed that a well-defined subset of Belarussian children aged 0-18 years at the time of the accident be examined by well-trained specialists for thyroid disease at least biennially for up to 30 years. A cohort of 15,000 children has been identified, all of whom had their thyroids measured for radioactivity during the weeks immediately following the accident. Under a rigid research protocol these children will receive complete diagnostic thyroid examinations, including palpation, ultrasound scanning, thyroid hormone and other laboratory tests, and fine-needle aspiration, as appropriate. Cancer will be determined by expert pathology examination of tissue. In addition to the analysis of thyroid radiation measurements made in May-June, 1986, efforts will be made to reconstruct each person's exposure and to estimate the radiation doses to the thyroid. This will involve the reconstruction of deposition patterns and environmental pathways of the radioiodines, and of the location, dietary characteristics, and lifestyle of each person throughout the exposure period.
The data will be analyzed to evaluate the relationship, if any, between thyroid disease, especially cancer, and the radiation dose to the thyroid, with emphasis on the dose from 131I. The primary focus will be on dose-response analyses of person-year incidence data with stratification by sex, age at exposure, geographic area, time, and age at risk. Confounding factors, e.g., use of potassium iodide (KI) as a prophylactic measure, will be evaluated and controlled in the analysis, and the uncertainty of the dose estimates will be taken into account.
In addition to producing risk coefficients for thyroid cancer and other thyroid diseases in children as a function of sex and age at the time of exposure, it is expected that the analyses will contribute new knowledge of the carcinogenic effectiveness of 131I in comparison with that of x-ray and gamma radiation. This information will fill a major gap in the world's knowledge of radiation effects, and will provide guidance for radiation protection and public health policies wherever nuclear reactors are in operation.
Non-Cancer Thyroid Disease
Non Thyroid Cancer
|Study Design:||Time Perspective: Prospective|
|Official Title:||Scientific Protocol for the Study of Thyroid Cancer and Other Thyroid Disease in Belarus Following the Chernobyl Accident|
- Radiation-related risk of benign and malignant thyroid disease [ Time Frame: 2-3 years after initiation of study ]
|Study Start Date:||March 21, 1994|
The nuclear power plant accident at Chornobyl released large quantities of Iodine-131 and other radioisotopes of iodine into the atmosphere, contaminating thousands of square kilometers and exposing millions of people. For this study, a well-defined subset of Belarusian children under age 18 years at the time of the accident were identified and examined by well-trained specialists for thyroid disease every two years for three cycles. The study is a collaborative effort of researchers in Belarus and the United States.
The cohort includes approximately 12,000 persons who were children in 1986, all of whom had their thyroids measured for radioactivity during the weeks immediately following the accident. Under a rigid research protocol these subjects received diagnostic thyroid examinations, including palpation, ultrasound scanning, thyroid hormone and other laboratory tests. If indicated, they were referred for a fine-needle aspiration biopsy. Interview information regarding residential, health, diet and lifestyle history are also collected. All subjects were followed for thyroid cancer morbidity and mortality. Overall, 163 cancers were identified. Interviews with mothers of the subjects who were less than 10 years of age at the time of the accident whose memory of events proved inadequate increased the total accrual to 13,552.
Based on thyroid radiation measurements made in May-June, 1986, and other information (reconstruction of deposition patterns and environmental pathways of the radioiodines, and of the location, dietary characteristics, and lifestyle of each person throughout the exposure period), each person s radiation dose to the thyroid was estimated.
The aim of the study is to assess the early and late morphologic and functional changes in the thyroid glands of young persons exposed to radiation from radioactive materials released as a consequence of the Chornobyl nuclear power plant accident, with emphasis on dose- and time-specific changes.
Active screening for thyroid cancers ended in September 2006. The third and final thyroid screening examinations were completed in September 2006, identifying 163 cases of thyroid cancer during the examination period. Subject accrual through screening is no longer ongoing. Thyroid and other cancer case ascertainment is underway by linkage to the Belarusian Cancer Registry. A paper has been published on the radiation dose response for prevalent thyroid cancer and analyses of incident cancer cases and other thyroid disease are ongoing.
Please refer to this study by its ClinicalTrials.gov identifier: NCT00339716
|Contact: Kiyohiko Mabuchi, M.D.||(301) email@example.com|
|Ministry of Health Republic of Belarus||Recruiting|
|Principal Investigator:||Kiyohiko Mabuchi, M.D.||National Cancer Institute (NCI)|