Biological Consequences of Radiation-induced DNA Damage: Relevance to Radiotherapy
CRUK/MRC Oxford Institute for Radiation Oncology · University of Oxford
Abstract
DNA damage of exposed tumour tissue leading to cell death is one of the detrimental effects of ionising radiation that is exploited, with beneficial consequences, for radiotherapy. The pattern of the discrete energy depositions during passage of the ionising track of radiation defines the spatial distribution of lesions induced in DNA with a fraction of the DNA damage sites containing clusters of lesions, formed over a few nanometres, against a background of endogenously induced individual lesions. These clustered DNA damage sites, which may be considered as a signature of ionising radiation, underlie the deleterious biological consequences of ionising radiation. The concepts developed rely in part on the fact…
Citation impact
- FWCI
- 13.01
- Percentile
- 100%
- References
- 98
Authors
3Topics & keywords
- Medicine
- Radiation therapy
- Relevance (law)
- DNA damage
- Medical physics
- Cancer research
- DNA
- Computational biology
- Good health and well-being