Radiation Oncology (Oct 2011)

Survival of tumor cells after proton irradiation with ultra-high dose rates

  • Belka Claus,
  • Schmid Thomas E,
  • Drexler Guido A,
  • Greubel Christoph,
  • Hable Volker,
  • Auer Susanne,
  • Dollinger Günther,
  • Friedl Anna A

DOI
https://doi.org/10.1186/1748-717X-6-139
Journal volume & issue
Vol. 6, no. 1
p. 139

Abstract

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Abstract Background Laser acceleration of protons and heavy ions may in the future be used in radiation therapy. Laser-driven particle beams are pulsed and ultra high dose rates of >109 Gy s-1may be achieved. Here we compare the radiobiological effects of pulsed and continuous proton beams. Methods The ion microbeam SNAKE at the Munich tandem accelerator was used to directly compare a pulsed and a continuous 20 MeV proton beam, which delivered a dose of 3 Gy to a HeLa cell monolayer within Results At 10 h after pulsed irradiation, the fraction of G2 cells was significantly lower than after irradiation with the continuous beam, while all other endpoints including colony formation were not significantly different. We determined the relative biological effectiveness (RBE) for pulsed and continuous proton beams relative to x-irradiation as 0.91 ± 0.26 and 0.86 ± 0.33 (mean and SD), respectively. Conclusions At the dose rates investigated here, which are expected to correspond to those in radiation therapy using laser-driven particles, the RBE of the pulsed and the (conventional) continuous irradiation mode do not differ significantly.

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