Naslov
Quality control of mega voltage portal imaging system

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

Vrsta, podvrsta i kategorija rada
Radovi u zbornicima skupova, cjeloviti rad (in extenso), stručni

Izvornik
Proceedings of the ninth symposium of the CRPA / - , 2013, 340-345

ISBN
978-953-96133-8-7

Skup
Deveti simpozij Hrvatskog društva za zaštitu od zračenja

Mjesto i datum
Krk, Hrvatska, 10.04.2013. - 12.04.2013

Vrsta sudjelovanja
Predavanje

Vrsta recenzije
Domaća recenzija

Ključne riječi
radiotherapy ; portal imaging ; quality control

Sažetak
The Electronic Portal Imaging Device (EPID) is a system used to verify either the correct positioning of the patient during radiotherapy treatment or the linear accelerator beam parameters. The correct position of the patient corresponds to the position at which the patient was scaned at the CT simulator and according to which the therapy plan was made and optimized. Regarding this, besides the advanced treatment planning system and optimized treatment planning techniques, the day to day reproduction of simulated conditions is of great importance for the treatment outcome. Therefore, to verify the patient set- up portal imaging should be applied prior to the first treatment session and repeated according to treatment prescriptions during the treatment. In order to achieve full functionality and precision of the EPID, it must be included in radiotherapy Quality Control (QC) programme. The QC of the Mega Voltage portal imaging system was separeted in two parts. In the first, the QC of the detector parameters should be performed. For this purpose, the FC2 and QC3 phantoms should be used, along with the Portal Image Processing System program (PIPSpro) package for data analysis. The second part of the QC of the linear accelerator's portal imaging system should include the QC of the CBCT. In this part a set of predefined manufacturers tests using two different phantoms, one for the geometry calibration and the other for the image quality evaluation, should be performed. Also, the treatment conditions should be simulated using anthropomorphic phantoms and dose distributions for particular EPID protocols should be measured. Procedures for quality control of the portal imaging system developed and implemented at University Hospital Rijeka will be presented in this paper.

Izvorni jezik
Engleski

Znanstvena područja
Fizika

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