Nuclear Technology & Radiation Protection Journal


NT & RP Journal	ABSORBED DOSE UNCERTAINTY ESTIMATION FOR PROTON THERAPY
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Vol. XXVII, No. 3, Pp. 199-332 September 2012 UDC 621.039+614.876:504.06 ISSN 1451-3994 Back to Contents	Pages: 297-304 Authors: Vesna Spasić Jokić, Aleksandar Dobrosavljević, and Petar Beličev Abstract Successful radiotherapy treatment depends on the absorbed dose evaluation and the possibility to define metrological characteristics of the therapy beam. Radiotherapy requires tumor dose delivery with expanded uncertainty less than ±5 %. It is particularly important to reduce uncertainty during therapy beam calibration as well as to apply all necessary ionization chamber correction factors. Absorbed dose to water was determined using ionometric method. Calibration was performed in reference cobalt beam. Combined standard uncertainty of the calculated absorbed dose to water in 65 MeV proton beam was ±1.97% while the obtained expanded uncertainty of absorbed dose for the same beam quality was ±5.02%. The uncertainty estimation method has been developed within the project TESLA. Key words: protons, absorbed dose, therapy, uncertainty FULL PAPER IN PDF FORMAT (252 KB)
Vinča Institute of Nuclear Sciences :: Designed by milas :: July 2007 Operated by acapanic :: Last updated on October, 2012

Pages: 297-304

Authors: Vesna Spasić Jokić, Aleksandar Dobrosavljević, and Petar Beličev

Abstract

Successful radiotherapy treatment depends on the absorbed dose evaluation and the possibility to define metrological characteristics of the therapy beam. Radiotherapy requires tumor dose delivery with expanded uncertainty less than ±5 %. It is particularly important to reduce uncertainty during therapy beam calibration as well as to apply all necessary ionization chamber correction factors. Absorbed dose to water was determined using ionometric method. Calibration was performed in reference cobalt beam. Combined standard uncertainty of the calculated absorbed dose to water in 65 MeV proton beam was ±1.97% while the obtained expanded uncertainty of absorbed dose for the same beam quality was ±5.02%. The uncertainty estimation method has been developed within the project TESLA.

Key words: protons, absorbed dose, therapy, uncertainty

FULL PAPER IN PDF FORMAT (252 KB)