AbstractThe aim of this research was to determine the biological effectiveness for early and delayed effects of high energy, high linear energy transfer (LET) charged particles. Survival and delayed reproductive death were measured in AG1522 human fibroblast cells exposed to Fe-ion beams of energies between 0.2 and 1 GeV/n, 0.97 GeV/n Ti-ion and 0.49 GeV/n Si-ion beams. The cells were irradiated at the HIMAC accelerator in Chiba, Japan (0.2 and 0.5 GeV/n Fe and 0.49 GeV/n Si) and at the NASA Space Radiation Laboratory in Brookhaven, USA (1 GeV/n Fe and 0.97 GeV/n Ti ions). The dose–effect curves were measured in the dose range between 0.25 and 2 Gy. For comparison cells were exposed to 60Co γ rays. Analysis of the dose–effect curves show that all the heavy ion beams induce inactivation and delayed reproductive death more effectively than 60Co rays. The only exception is the 0.2 GeV/n Fe-ion beam at low doses. The progeny of the irradiated cells show delayed damage in the form of reproductive death with all the heavy ion beams with the 1 GeV/n Fe-ion beam being the most effective. The relative biological effectiveness at low doses of the iron beams is highest for LET values between 140 and 200 keV/μm with values of 1.6 and 3 for early and delayed reproductive death, respectively. Analysis of the fluence–effect curves shows that the cross-sections for early and delayed inactivation increase with increasing LET up to 442 keV/μm.
Early and delayed reproductive death in human cells exposed to high energy iron ion beams
Advances in Space Research ; 35 , 2 ; 280-285
2005-01-20
6 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Early and delayed reproductive death in human cells exposed to high energy iron ion beams
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