Radiobiological influence of megavoltage electron pulses of ultra-high pulse dose rate on normal tissue cells


Radiobiological influence of megavoltage electron pulses of ultra-high pulse dose rate on normal tissue cells

Laschinsky, L.; Karsch, L.; Leßmann, E.; Oppelt, M.; Pawelke, J.; Richter, C.; Schürer, M.; Beyreuther, E.

Regarding the long term goal to develop and establish laser based particle accelerators for a future radiotherapeutic treatment of cancer the radiobiological consequences of the characteristic short intense particle pulses with ultra-high peak dose rate but low repetition rate of laser-driven beams have to be investigated. This work presents in vitro experiments performed at the radiation source ELBE (Electron Linac for beams with high Brilliance and low Emittance). This accelerator delivered 20 MeV electron pulses with ultra-high pulse dose rate of 10^10 Gy/min either at the low pulse frequency analogue to previous cell experiments with laser-driven electrons or at high frequency for minimizing the prolonged dose delivery and to perform comparison irradiation with a quasi-continuous electron beam analogue to a clinically used linear accelerator. The influence of the different electron beam pulse structures on the radiobiological response of the normal tissue cell line 184A1 and two primary fibroblasts were investigated regarding clonogenic survival and the number of DNA double strand breaks that remain 24 hours after irradiation. Thereby, no significant differences in radiation response were revealed for both biological endpoints and for all probed cell cultures. These results provide evidence that the radiobiological effectiveness of the pulsed electron beams is not affected by the ultra-high pulse dose rates alone.

Keywords: Laser-driven radiotherapy; cell response to electron beams; pulsed irradiation; ultra-high pulse dose rate; normal tissue cell culture

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Permalink: https://www.hzdr.de/publications/Publ-22691
Publ.-Id: 22691