Title :
Simulation of cellular irradiation with the CENBG microbeam line using GEANT4
Author :
Incerti, Sébastien ; Barberet, P. ; Villeneuve, R. ; Aguer, P. ; Gontier, E. ; Michelet-Habchi, C. ; Moretto, P. ; Nguyen, D.T. ; Pouthier, T. ; Smith, R.W.
Author_Institution :
Centre d´´Etudes Nucl. de Bordeaux-Gradignan, Univ. Bordeaux, Gradignan, France
Abstract :
Light-ion microbeams provide a unique opportunity to irradiate biological samples at the cellular level and to investigate radiobiological effects at low doses of high linear energy transfer ionizing radiation. Since 1998 a single-ion irradiation facility has been developed on the focused horizontal microbeam line of the CENBG 3.5 MV Van de Graaff accelerator. This setup delivers in air single protons and alpha particles of a few MeV onto cultured cells, with a spatial resolution of a few micrometers, allowing subcellular targeting. In this paper, we present results from the use of the GEANT4 toolkit to simulate cellular irradiation with the CENBG microbeam line, from the entrance to the microprobe up to the cellular medium. We show that a 3 MeV incident alpha particle may deliver a dose of 0.33 Gy to a typical cell nucleus.
Keywords :
Monte Carlo methods; alpha-particle effects; biological effects of ionising particles; cellular effects of radiation; dosimetry; high energy physics instrumentation computing; proton effects; ray tracing; van de Graaff accelerators; 3.5 MV; CENBG microbeam line; GEANT4; Monte Carlo method; Van de Graaff accelerator; alpha particle effect; biological sample irradiation; cell nucleus; cellular irradiation; cultured cell; focused horizontal microbeam line; light-ion microbeam; linear energy transfer ionizing radiation; microdosimetry; radiobiological effect; ray tracing; single proton effect; single-ion irradiation facility; spatial resolution; subcellular targeting; Alpha particles; Biological system modeling; Collimators; Humans; Ionizing radiation; Magnetic flux; Monte Carlo methods; Object oriented modeling; Protons; Spatial resolution;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2004.832224
