Author:
Belli M.,Cera F.,Cherubini R.,Goodhead D.T.,Haque A.M.I.,Ianzini F.,Moschini G.,Nikjoo H.,Sapora O.,Simone G.,Stevens D.L.,Tabocchini M.A.,Tiveron P.
Abstract
Abstract
The results for inactivation of V79 cells irradiated by monoenergetic deuterons with LET of 18, 26 and 31 keV.µm-1 and their direct comparison with protons of comparable LET are presented. The experimental results show that at 31 keV.µm-1 cell inactivation is similar for protons and deuterons while, at lower LET, deuterons appear to be less lethal than protons. The use of parameters other than L(, such as L100 or Z2 eff/ß2, does not completely reconcile the differences in biological effectiveness among the particles pointing out their inadequacy for describing the radiation quality of light ions. The experimental results have been compared with the Monte Carlo track structure simulations, using the code MOCA 14, carried out for monoenergetic track segments of protons, deuterons and alpha particles of selected LET in the range 20-40 keV.µm-1. Existing track structure codes, and indeed essentially all other physical descriptions of radiations used to date, are unable to explain the observed differences in biological effectiveness between deuterons and protons.
Publisher
Oxford University Press (OUP)
Subject
Public Health, Environmental and Occupational Health,Radiology, Nuclear Medicine and imaging,General Medicine,Radiation,Radiological and Ultrasound Technology
Cited by
8 articles.
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