Improved radial dose function estimation using current version MCNP Monte-Carlo simulation: Model 6711 and ISC3500 125I brachytherapy sources

Improved radial dose function estimation using current version MCNP Monte-Carlo simulation: Model 6711 and ISC3500 125I brachytherapy sources

Improved cross-sections in a new version of the Monte-Carlo N-particle (MCNP) code may eliminate discrepancies between radial dose functions (as defined by American Association of Physicists in Medicine Task Group 43) derived from Monte-Carlo simulations of low-energy photon-emitting brachytherapy s...

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Veröffentlicht in:Applied radiation and isotopes 2004-12, Vol.61 (6), p.1443-1450
1. Verfasser: Duggan, Dennis M.
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Brachytherapy
Brachytherapy - methods
Brachytherapy - standards
Computer Simulation
Humans
Iodine Radioisotopes - analysis
Iodine Radioisotopes - therapeutic use
Iodine-125
Male
Models, Biological
Models, Statistical
Monte Carlo Method
Monte-Carlo simulation
Prostate cancer
Prostatic Neoplasms - radiotherapy
Radiation dosimetry
Radiometry - methods
Radiometry - standards
Radiotherapy Dosage
Radiotherapy Planning, Computer-Assisted - instrumentation
Radiotherapy Planning, Computer-Assisted - methods
Radiotherapy Planning, Computer-Assisted - standards
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Zusammenfassung:Improved cross-sections in a new version of the Monte-Carlo N-particle (MCNP) code may eliminate discrepancies between radial dose functions (as defined by American Association of Physicists in Medicine Task Group 43) derived from Monte-Carlo simulations of low-energy photon-emitting brachytherapy sources and those from measurements on the same sources with thermoluminescent dosimeters. This is demonstrated for two 125I brachytherapy seed models, the Implant Sciences Model ISC3500 (I-Plant) and the Amersham Health Model 6711, by simulating their radial dose functions with two versions of MCNP, 4c2 and 5.
ISSN:0969-8043
1872-9800
DOI:10.1016/j.apradiso.2004.05.070