The main objective of this project is to provide a research resource for both ongoing and future studies of the health consequences of the Chernobyl accident.
It seeks to maximize the amount of information obtained from small pieces of tumour by providing multiple aliquots of RNA and DNA extracted from well documented pathological specimens to a number of researchers world-wide and to conserve this valuable material for future generations of scientists. It exists to promote collaborative, rather than competitive, research on a limited biological resource.
- ensures that the best possible diagnostic service is provided to patients and that appropriate ethical consent is obtained for each biological sample
- ensures that specimens of thyroid cancer operated on or after 1st October 1998 (the start date of the project) are properly described and sampled, and that materials (frozen tissue, fixed tissue sections, extracted DNA/RNA and blood samples), are available for appropriate research studies
- provides a diagnosis agreed by internationally recognized pathologists. The diagnosis is made available to research groups carrying out molecular biological, therapeutic, epidemiological and other studies
- provides an archive of data generated from research studies carried out using the material that can be used for future studies on the interaction of specific oncogenic changes in the generation of radiation related thyroid cancer. This may have direct relevance to both prognosis and assessment of risk from exposure to radiation
The project is already achieving the first three objectives above, but continued collection of material is necessary for a number of reasons. There is evidence that suggests that tumours following a short latency are likely to show a different molecular biological and pathological profile than those of a longer latency; this project will help to clarify this difference as the latent period since the accident increases. Thyroid cancer is increasing world-wide and although most tumours do not have a defined radiation aetiology, it is likely that the insights gained from studying the post Chernobyl tumours will provide information that could be of use for the diagnosis and treatment of thyroid cancer and of other cancers in general.
What happens to the results of the research studies?
Researchers who obtain material from the CTB agree to provide the results of their investigation on a case-by-case basis. This information will not be used until after the researchers have published their findings, but it will allow the results of all of the studies to be correlated at a later date, so that, for example, the investigations by different groups of a number of different genes can be correlated to study their interactions. The provision of extracted nucleic acid from thyroid tissue, rather than each researcher being provided with a small piece of tissue maximises the amount of data that can potentially be obtained from a single operative specimen and will enable multiple molecular biological studies to be carried out for each case.
The CTB biosample search facility allows researchers wishing to access biomaterials to select those cases from which they would wish to receive samples. This search facility will be expanded over the next few months to include the ability to refine searches using clinical information and information on driver mutations obtained from research projects using the resource.
Where is the CTB located?
The tissue banks are situated in two of the countries most exposed to fallout from Chernobyl; one at the Institute of Endocrinology and Metabolism in Kiev, Ukraine and one at the Ministry of Health of the Russian Federation, A. Tsyb Medical Radiological Research Center in Obninsk, in the Russian Federation. Each bank consents patients and prepares and stores material from its own population. Historically each centre maintained its own database of samples and data was shared with an integrated database maintained at the Coordinating Centre at Imperial College, London. Today, each institute logs cases centrally via a web interface into a bespoke samples database. Key information is therefore available to researchers wishing to use the tissue banks and each institute has access to the complete data from its own population at any time.
The CTB includes material and information from all patients with thyroid carcinomas and cellular follicular adenomas from the contaminated oblasts of the Russian Federation (Bryansk, Kaluga, Tula and Oryol) and Ukraine (Kiev, Kiev city, Cherkasse, Chernigov, Rovno, Zhitomyr and Sumy) who were born after 26th April 1967 (i.e. aged under 19 at the time of the Chernobyl accident) and operated on or after the 1st October 1998. Detailed standard operating procedures for the collection and documentation of specimens and blood samples have been agreed with professional staff involved in the collection of material, and ethical standards agreed upon with the relevant authorities, conforming to the requirements of each country involved, including those of the funding organisations.
Each specimen is given a code authorized by the appropriate person responsible for the management of the resource in each of the three countries. The age, sex, age at operation, oblast and country of residence, and a measured or calculated dose received are recorded for each specimen stored in the CTB, and are made available to researchers with approved projects receiving material from the bank. All data accessible by researchers is anonymised. Each anonymised specimen is assigned a tissue bank reference number by the institute in Ukraine and Russia and all data accessible by researchers is identified by this reference number.
Information for researchers who are looking to research into the Chernobyl accident.