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Article
Verification of the plan dosimetry for high dose rate brachytherapy using metal-oxide-semiconductor field effect transistor detectors
Faculty of Engineering - Papers (Archive)
  • Zhen-Yu Qi, University of Wollongong
  • Xiao-Wu Deng, University of Wollongong
  • Shao-Min Huang, Sun Yat-Sen University Cancer Center
  • Jie Lu, Sun Yat-Sen University Cancer Center
  • Michael L Lerch, University of Wollongong
  • Dean Cutajar, University of Wollongong
  • Anatoly B. Rosenfeld, University of Wollongong
RIS ID
20784
Publication Date
1-1-2007
Publication Details

Qi, Z., Deng, X., Huang, S., Lu, J., Lerch, M. LF., Cutajar, D. & Rosenfeld, A. (2007). Verification of the plan dosimetry for high dose rate brachytherapy using metal-oxide-semiconductor field effect transistor detectors. Medical Physics, 34 (6), 2007-2013.

Abstract

The feasibility of a recently designed metal–oxide–semiconductor field effect transistor (MOSFET) dosimetry system for dose verification of high dose rate (HDR) brachytherapy treatment planning was investigated. MOSFET detectors were calibrated with a 0.6 cm3 NE-2571 Farmer-type ionization chamber in water. Key characteristics of the MOSFET detectors, such as the energy dependence, that will affect phantom measurements with HDR 192Ir sources were measured. The MOSFET detector was then applied to verify the dosimetric accuracy of HDR brachytherapy treatments in a custom-made water phantom. Three MOSFET detectors were calibrated independently, with the calibration factors ranging from 0.187 to 0.215 cGy∕mV. A distance dependent energy response was observed, significant within 2 cm from the source. The new MOSFET detector has a good reproducibility (R2=1). It was observed that the MOSFET detectors had a linear response to dose until the threshold voltage reached approximately 24 V for 192Ir source measurements. Further comparison of phantom measurements using MOSFET detectors with dose calculations by a commercial treatment planning system for computed tomography-based brachytherapy treatment plans showed that the mean relative deviation was 2.2±0.2% for dose points 1 cm away from the source and 2.0±0.1% for dose points located 2 cm away. The percentage deviations between the measured doses and the planned doses were below 5% for all the measurements. The MOSFET detector, with its advantages of small physical size and ease of use, is a reliable tool for quality assurance of HDR brachytherapy. The phantom verification method described here is universal and can be applied to other HDR brachytherapy treatments.

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Citation Information
Zhen-Yu Qi, Xiao-Wu Deng, Shao-Min Huang, Jie Lu, et al.. "Verification of the plan dosimetry for high dose rate brachytherapy using metal-oxide-semiconductor field effect transistor detectors" (2007) p. 2007 - 2013
Available at: http://works.bepress.com/dcutajar/17/