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Verification of the treatment planning systems in the Croatian radiotherapy community (CROSBI ID 631166)

Prilog sa skupa u zborniku | sažetak izlaganja sa skupa | međunarodna recenzija

Švabić, Manda ; Jurković, Slaven ; Diklić, Ana ; Smilović Radojčić, Đeni ; Dundara, Dea ; Kasabašić, Mladen ; Ivković, Ana ; Faj, Dario Verification of the treatment planning systems in the Croatian radiotherapy community // Abstract book, 5th Alpe-Adria Medical Physics Meeting, Trieste, 2012.. 2012

Podaci o odgovornosti

Švabić, Manda ; Jurković, Slaven ; Diklić, Ana ; Smilović Radojčić, Đeni ; Dundara, Dea ; Kasabašić, Mladen ; Ivković, Ana ; Faj, Dario

engleski

Verification of the treatment planning systems in the Croatian radiotherapy community

Effective programme for quality assurance (QA) and quality control (QC) depends strongly on the understanding the limitations of various systems used in radiation therapy. Besides the mechanical and dosimetrical parameters of therapy machines [1], the treatment planning system (TPS) accuracy has a great impact on the treatment outcome. The verification of TPS was done using homogenous (water) phantom and anthropomorphic phantom CIRS Thorax (CIRS Inc., Norfolk). The first step was to check calibration and beam modelling in water through 58 different tests. These tests were planned in CMS XiO for two photon energies and multigrid superposition algorithm. The criteria were set according to IAEA TRS 430 [2]. After the verification in water, measurements were performed in anthropomorphic phantom. New set of 14 tests were also planned in XiO for two photon energies and multigrid superposition algorithm. The same dosimetrical verification of TPS was done in 4 radiotherapy centers in Croatia. The results of the measurements in water equivalent tissue were mostly in tolerance. Measurements done in non-water equivalent tissue revealed a significant amount of out of tolerance values, especially for high energy photon beams. Discrepancies between measurement and calculation may arise due to a number of factors [3]. After checking most of them, it becomes apparent that the limitation of calculating system cannot be neglected and the doses calculated in inhomogeneous volumes should be additionally reconsidered. Bibliography 1. Croatian Medical and Biological Engineering Society / Medical Physics Division. Prirunik za kontrolu kvalitete linearnog akceleratora [Linear accelerator quality control handbook, in Croatian] [displayed 25 July 2011]. Available at http://medfizika.netai.net/upload/Protokol_Onco rOsijek Rijeka.doc 2. IAEA (International Atomic Energy Agency) Technical Report Series 430 Commissioning and quality assurance of computerized planning systems for radiation treatment of cancer. Vienna: IAEA 2005. 3. Gershkevitsh E, Schmidt R, Velez G et al. Dosimetric verification of radiotherapy treatment planning systems: Results of IAEA pilot study. Radioth Oncol 2009 ; 89:338-346

radiotherapy ; treatment planning system ; quality assurance

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Podaci o prilogu

2012.

objavljeno

Podaci o matičnoj publikaciji

Abstract book, 5th Alpe-Adria Medical Physics Meeting, Trieste, 2012.

Podaci o skupu

5th Alpe- Adria Medical Physics Meeting

predavanje

01.05.2012-03.05.2012

Trst, Italija

Povezanost rada

Fizika