Performance evaluation and quality control implementation of parallel plate ionization chambers using linear accelerator
DOI:
https://doi.org/10.29384/rbfm.2026.v20.19849001848Keywords:
Ionization chamber, Parallel plates, Quality control, Radiotherapy, Linear acceleratorAbstract
External beam radiotherapy uses an electron beams to treat superficial lesions. For the calibration of this type of beam, it is recommended to use parallel plate ionization chambers (PPIs). Therefore, a quality control program is necessary for this type of dosimeter. Thus, the objective of this work was to evaluate the performance and implement quality control of PPIs using linear accelerator (LA) electron beam. Four PPIs were evaluated: three PPC05 from Iba and one Roos Chamber from PTW. The tests performed were repeatability with two different methodologies, reading stability with voltage variation for four voltage configurations, response linearity and leakage. For the repeatability and stability of the reading with the voltage variation, the three PPC05 chambers presented large deviations when considering the first 5 readings. When disregarding them, the four chambers present deviations smaller than the tolerance. All chambers analyzed presented linearity correlation coefficients greater than 0.99, which demonstrates excellent linearity of response with the dose. The current leakage values of the four cameras were less than 0.1%, showing excellent performance. Therefore, the work demonstrates that it is possible to use the LA electron beam to perform quality control tests on parallel plate chambers. Furthermore, it shows that when using the PPC05 chamber to calibrate the electron beam, it is recommended that, after applying voltage to the electrometer, a few readings are taken until they stabilize before considering them for calculating the dose.
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Andreo P, Burns DT, Hohlfeld K, et al. Absorbed Dose Determination in External Beam Radiotherapy: An International Code of Practice for Dosimetry based on Standards of Absorbed Dose to Water. IAEA Technical Reports Series no. 398. Vienna: International Atomic Energy Agency; 2000.
Almond, P. R., Biggs, P. J., Coursey, B. M., Hanson, W. F., Huq, M. S., Nath, R., & Rogers, D. W. (1999). AAPM's TG‐51 protocol for clinical reference dosimetry of high‐energy photon and electron beams. Medical physics, 26(9), 1847-1870.
Task Group 21, Radiation Therapy Committee, AAPM. (1983). A protocol for the determination of absorbed dose from high‐energy photon and electron beams. Medical Physics, 10(6), 741-771.
Walter, A. E., Hansen, J. B., & DeWerd, L. A. (2020). Evaluation of ionization chamber stability checks using various sources. Physica Medica, 80, 327-334.
International Electrotechnical Commission. Medical electrical equipment - Dosimeters with ionization chambers as used in radiotherapy. Geneva: IEC; 2011. p. 60731.
Brasil. Ministério da Saúde. Instituto Nacional de Câncer. TEC DOC - 1151: aspectos fÌsicos da garantia da qualidade em radioterapia. Rio de Janeiro: INCA, 2000.
Milana, M., Jelena, M., & Borislava, P. (2023). Quality assurance of six cylindrical and two parallel plate chambers by radioactive check device: influence of chamber age to its performance. Physica Medica, 112, 102635.
Sharifi, B., Zeinali, H. Z., Soltani, J., Negarestani, A., & Shahvar, A. (2015). Investigation and performance tests of a new parallel plate ionization chamber with double sensitive volume for measuring diagnostic X-rays. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 770, 177-181.
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Copyright (c) 2026 André Vinícius de Camargo, Everaldo Luiz Vicentin Junior, Thais Damasio Quadros, Mateus Hilário de Lima
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