Ioniserende stråling er koblet til en rekke kreft i mennesker, inkluderte gastrointestinal tumorer. Men informasjon om lavdoser og lav dose hastigheter effekter mangler. Prosjektet brukt en ApcMin/+ mus model som er følsomme til utviklingen av gastrointestinal tumorer. I 2015, mer en 500 mus ble bestrålt over 2 måneder til doser av 1 of 3 Gy ved FIGARO bestrålingsanlegg ved NMBU. Deretter ble de sent til Public Heath England for oppfølging av tumor utviklingen, pluss en rekke genotoksiske og andre endepunkter. Risk faktorer fra kroniske bestrålingen skal ble sammenlignet med risk fra sammen dosen gitt som akutte bestråling (data analyse pågår. Resultatene viser en dose avhengige genotoksiske respons i mus. Biomarkerer utviklet i mus er også testet i en rekke andre organismer (zebrafiske, c elegans).
This project is part of an application to the DoReMi internal call to consortium partners for integrated activities. The project addresses the collaborative projects accross WPs and the access to infrastructure part of the call. The project is a collabrat ion between three DoReMi consortium partners: NMBU/CERAD (University of Life Sciences, Centre of Excellence in Environmental Radioactivity), Public Health England (PHE, UK) and Folkehelse(NPHI, Norway). The proposal had been accepted by the DoReMi consort ium. The project application summary refers to NMBUs contribution to the Clogigat project.
The aim of CLOGIGAT is to compare the quantitative effects of chronic low dose-rate (1.6 mGy h-1) and acute high dose-rate (3 Gy h-1) exposures to gamma radiatio n in the well characterised characterised ApcMin/+ mouse model of gastrointestinal tumorigenesis. The project will also give information on the genotoxicity of chronic vs. acute irradiation. The genotoxicity assessments will be done in blood, with transfe rability potential to humans following exposure to gamma irradiation. The project will increase the understanding of colon cancer development following chronic vs. acute gamma irradiation, and if the stage of the cancer development is correlated with geno toxic responses observed in blood samples. The profiling of the epigenetic regulatory miRNA in serum can potentially establish markers for both exposure and effects, also with transferability possibilities to humans. These studies will therefore contribut e to the evidence base for and inform the judgement on DDREF. In this respect, the proposed study is timely as ICRP has recently established a Task Group to examine the issue of risk inference at low doses and dose rates (Task Group 91).
Overall, the pro ject will contribute towards an improved knowledge of low dose/dose rate radiation cancer
risk, which is a key aim of DoReMi WP5, and is in line with key reaearch areas in the EC EURATOM programme.