Åsa Carlsson Tedgren (Professor) , Linda Persson PhD , Ilias Billas PhD , Graham Bass PhD , Thorsten Sander PhD , Simon Dahlander MSc
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引用次数: 0
Abstract
Purpose/Objective
In radiotherapy, independent verification of the treatment fields is standard practice. However, for 106Ru eye plaque brachytherapy there is no such method available. This has led to many hospitals performing treatments without verification of plaque absorbed dose rate to water [1], as also addressed by the AAPM TG No 221 [2]. To enhance the safety of brachytherapy treatments for intraocular tumors, we devised an independent measurement protocol to determine depth-dose curves from 106Ru eye-plaques using a new high precision setup equipment and diode detector.
Material/Methods
The absorbed dose rate to water was measured from five plaques (Bebig Eckert and Ziegler), four CCB types and one CCA type, using three PTW microSilicon detectors with a prototype, dedicated setup equipment from the plaque vendor named BetaCheck-106. The diodes were calibrated in 60Co at the Swedish secondary standards metrology laboratory. Beam quality correction factors along the lines of the TRS-398 protocol [3] were calculated with the PENELOPE Monte Carlo code and detector blueprints. Absorbed dose rate measurements were performed in the water-filled PMMA phantom. Furthermore, the depth-dose curves were validated against vendor data and data from alanine detectors measurements with the latter performed at the primary standard laboratory of the National Physical Laboratory, UK and traceable to a 60Co primary standard of absorbed dose to water.
Result
The absorbed dose rates to water measured with the diodes and alanine detectors fell within the vendor's expanded measurement uncertainty, 11% (k=2), but were lower than the vendor's values. For the CCB applicators at the 2 mm distance reference point, the absorbed dose rates measured with the diode detectors were on average 9% lower, while the absorbed dose rates measured with alanine detectors were 7.4% lower. For the CCA applicator, the absorbed dose rate was 7% and 4.6% lower for diode- and alanine detectors, respectively. Preliminary results are shown in Figure 1.
Conclusion
Our study shows an efficient measurement protocol for verifying 106Ru eye-plaque absorbed dose-rates. The dose rates measured by diode and alanine detectors both show lower dose rates compared to vendor certificates, but are still within the vendor's expanded measurement uncertainty. The discrepancy will be further investigated. The dedicated setup equipment provided high repeatability, which is crucial for reliably measuring the steep dose gradients from 106Ru. Diode detectors calibrated in 60Co with Monte Carlo calculated detector correction factors provide vendor independent traceability. The methodology offers hospitals a feasible way to verify absorbed dose-rate to water depth dose curves and so increase safety of patient treatments and fulfilment of regulatory requirements.
期刊介绍:
Brachytherapy is an international and multidisciplinary journal that publishes original peer-reviewed articles and selected reviews on the techniques and clinical applications of interstitial and intracavitary radiation in the management of cancers. Laboratory and experimental research relevant to clinical practice is also included. Related disciplines include medical physics, medical oncology, and radiation oncology and radiology. Brachytherapy publishes technical advances, original articles, reviews, and point/counterpoint on controversial issues. Original articles that address any aspect of brachytherapy are invited. Letters to the Editor-in-Chief are encouraged.
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