Radiation Protection Dosimetry Advance Access originally published online on January 11, 2007
Radiation Protection Dosimetry 2006 122(1-4):310-312; doi:10.1093/rpd/ncl481
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Development of a single ion hit facility at the Pierre Süe Laboratory: a collimated microbeam to study radiological effects on targeted living cells
Laboratoire Pierre Süe, UMR9956, CEA Saclay Bât 637, 91191 Gif sur Yvette Cedex, France
Corresponding author: laurent.daudin{at}cea.fr
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Abstract |
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A single ion hit facility is being developed at the Pierre Süe Laboratory (LPS) since 2004. This set-up will be dedicated to the study of ionising radiation effects on living cells, which will complete current research conducted on uranium chemical toxicity on renal and osteoblastic cells. The study of the response to an exposure to alpha particles will allow us to distinguish radiological and chemical toxicities of uranium, with a special emphasis on the bystander effect at low doses. Designed and installed on the LPS Nuclear microprobe, up to now dedicated to ion beam microanalysis, this set-up will enable us to deliver an exact number of light ions accelerated by a 3.75 MV electrostatic accelerator. An ‘in air’ vertical beam permits the irradiation of cells in conditions compatible with cell culture techniques. Furthermore, cellular monolayer will be kept in controlled conditions of temperature and atmosphere in order to diminish stress. The beam is collimated with a fused silica capillary tubing to target pre-selected cells. Motorisation of the collimator with piezo-electric actuators should enable fast irradiation without moving the sample, thus avoiding mechanical stress. An automated epifluorescence microscope, mounted on an antivibration table, allows pre- and post-irradiation cell observation. An ultra thin silicon surface barrier detector has been developed and tested to be able to shoot a cell with a single alpha particle.