An on-site dosimetry audit for high-energy electron beams

External dosimetry audits are powerful quality assurance instruments for radiotherapy. The aim of this study was to implement an electron dosimetry audit based on a contemporary code of practice within the requirements for calibration laboratories performing proficiency tests. This involved the dete...

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Bibliographic Details
Published in:Physics and imaging in radiation oncology 2018-01, Vol.5, p.44-51
Main Authors: de Prez, Leon, Heukelom, Stan, Jansen, Bartel, Jansen, Wim, van de Kamer, Jeroen, van Klink, Wenze, Kok, Elfried, Perik, Thijs, de Pooter, Jacco, Wittkämper, Frits
Format: Article
Language:English
Subjects:
Absorbed dose to water
Audit
Code of practice
Dosimetry
Electron beam
Original
Radiation therapy
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Summary:External dosimetry audits are powerful quality assurance instruments for radiotherapy. The aim of this study was to implement an electron dosimetry audit based on a contemporary code of practice within the requirements for calibration laboratories performing proficiency tests. This involved the determination of suitable acceptance criteria based on thorough uncertainty analyses. Subject of the audit was the determination of absorbed dose to water, Dw, and the beam quality specifier, R50,dos. Fifteen electron beams were measured in four institutes according to the Belgian-Dutch code of practice for high-energy electron beams. The expanded uncertainty (k = 2) for the Dw values was 3.6% for a Roos chamber calibrated in 60Co and 3.2% for a Roos chamber cross-calibrated against a Farmer chamber. The expanded uncertainty for the beam quality specifier, R50,dos, was 0.14 cm. The audit acceptance levels were based on the expanded uncertainties for the comparison results and estimated to be 2.4%. The audit was implemented and validated successfully. All Dw audit results were satisfactory with differences in Dw values mostly smaller than 0.5% and always smaller than 1%. Except for one, differences in R50,dos were smaller than 0.2 cm and always smaller than 0.3 cm. An electron dosimetry audit based on absorbed dose to water and present-day requirements for calibration laboratories performing proficiency tests was successfully implemented. It proved international traceability of the participants value with an uncertainty better than 3.6% (k = 2).
ISSN:2405-6316
2405-6316
DOI:10.1016/j.phro.2018.02.001