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Title: Computational Dosimetry for Electron Microbeams: Monte-Carlo Track Simulation with Confocal Microscopy

Journal Article · · Radiation Research
OSTI ID:15006408
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Both in vitro and in vivo experiments show that cells that do not receive energy directly from the radiation field (bystanders) respond to radiation exposure. This effect is most easily demonstrated with radiation fields composed of particles with high linear energy transfer (LET) that traverse only a few cells before they are stopped. Even at a moderate fluence of high-LET radiation only a small fraction of cells in the irradiated population are hit; hence, many bystanders are present. Low-LET radiation tends to generate a homogeneous distribution of dose at the cellular level so that identifying bystanders is much more difficult than in experiments with the same fluence of high-LET radiation. Experiments are underway at several laboratories to characterize bystander responses induced by low-LET radiation. At the Pacific Northwest National Laboratory, experiments of this type are being carried out with an electron microbeam. A cell selected to receive energy directly from the irradiation source is placed over a hole in a mask that covers an electron gun. Monte Carlo simulations by Miller et al.(1) suggest that individual mammalian cells in a confluent monolayer could be targeted for irradiation by 25 to 100 keV electrons with minimal dose leakage to their neighbors. These calculations were based on a simple model of the cellular monolayer in which cells were assumed to be cylindrically symmetric with concentric cytoplasm and nucleus. Radial profiles, the lateral extent of cytoplasm and nucleus as a function of depth into a cell, were obtained from confocal microscopy of HeLa-cell monolayers.

Research Organization:
Pacific Northwest National Lab., Richland, WA (US), Environmental Molecular Sciences Laboratory (US)
Sponsoring Organization:
US Department of Energy (US)
DOE Contract Number:
AC06-76RL01830
OSTI ID:
15006408
Report Number(s):
PNNL-SA-34082; RAREAE; 2370; KP1102020; TRN: US200412%%73
Journal Information:
Radiation Research, Vol. 156, Issue 4; Other Information: PBD: 15 Oct 2001; ISSN 0033-7587
Country of Publication:
United States
Language:
English

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Related Subjects

61 RADIATION PROTECTION AND DOSIMETRY
CYTOPLASM
DOSIMETRY
ELECTRON GUNS
IN VITRO
IN VIVO
IRRADIATION
LET
MICROSCOPY
COMPUTERIZED SIMULATION
RADIATION DOSES
MONTE CARLO METHOD
MAMMALS
ANIMAL CELLS
ENVIRONMENTAL MOLECULAR SCIENCES LABORATORY
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