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Linear, no Threshold Response at Low Doses of Ionizing Radiation: Ideology, Prejudice and Science


Affiliations
1 M.S. Swaminathan Research Foundation, Taramani, Chennai 600 113, India
 

The linear, no threshold (LNT) response model assumes that there is no threshold dose for the radiationinduced genetic effects (heritable mutations and cancer), and it forms the current basis for radiation protection standards for radiation workers and the general public. The LNT model is, however, based more on ideology than valid radiobiological data. Further, phenomena such as 'radiation hormesis', 'radioadaptive response', 'bystander effects' and 'genomic instability' are now demonstrated to be radioprotective and beneficial. More importantly, the 'differential gene expression' reveals that qualitatively different proteins are induced by low and high doses. This finding negates the LNT model which assumes that qualitatively similar proteins are formed at all doses. Thus, all available scientific data challenge the LNT hypothesis.

Keywords

Genomic Instability, Hormesis, Lnt Hypothesis, Radioadaptive Response, Stochastic Effects.
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  • Linear, no Threshold Response at Low Doses of Ionizing Radiation: Ideology, Prejudice and Science

Abstract Views: 398  |  PDF Views: 144

Authors

P. C. Kesavan
M.S. Swaminathan Research Foundation, Taramani, Chennai 600 113, India

Abstract


The linear, no threshold (LNT) response model assumes that there is no threshold dose for the radiationinduced genetic effects (heritable mutations and cancer), and it forms the current basis for radiation protection standards for radiation workers and the general public. The LNT model is, however, based more on ideology than valid radiobiological data. Further, phenomena such as 'radiation hormesis', 'radioadaptive response', 'bystander effects' and 'genomic instability' are now demonstrated to be radioprotective and beneficial. More importantly, the 'differential gene expression' reveals that qualitatively different proteins are induced by low and high doses. This finding negates the LNT model which assumes that qualitatively similar proteins are formed at all doses. Thus, all available scientific data challenge the LNT hypothesis.

Keywords


Genomic Instability, Hormesis, Lnt Hypothesis, Radioadaptive Response, Stochastic Effects.



DOI: https://doi.org/10.18520/cs%2Fv107%2Fi1%2F46-53