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An assessment of a 3D EPID-based dosimetry system using conventional two- and three-dimensional detectors for VMAT
Journal article   Open access   Peer reviewed

An assessment of a 3D EPID-based dosimetry system using conventional two- and three-dimensional detectors for VMAT

S. Stevens, P. Dvorak, V. Spevacek, K. Pilarova, M. Bray-Parry, J. Gesner and A. Richmond
Physica medica, Vol.45, pp.25-34
01/2018
PMID: 29472087

Abstract

3D dose comparison Absolute dosimetric verification EPID Portal dosimetry VMAT Radiotherapy
Purpose To provide a 3D dosimetric evaluation of a commercial portal dosimetry system using 2D/3D detectors under ideal conditions using VMAT. Methods A 2D ion chamber array, radiochromic film and gel dosimeter were utilised to provide a dosimetric evaluation of transit phantom and pre-treatment ‘fluence’ EPID back-projected dose distributions for a standard VMAT plan. In-house 2D and 3D gamma methods compared pass statistics relative to each dosimeter and TPS dose distributions. Results Fluence mode and transit EPID dose distributions back-projected onto phantom geometry produced 2D gamma pass rates in excess of 97% relative to other tested detectors and exported TPS dose planes when a 3%, 3 mm global gamma criterion was applied. Use of a gel dosimeter within a glass vial allowed comparison of measured 3D dose distributions versus EPID 3D dose and TPS calculated distributions. 3D gamma comparisons between modalities at 3%, 3 mm gave pass rates in excess of 92%. Use of fluence mode was indicative of transit results under ideal conditions with slightly reduced dose definition. Conclusion 3D EPID back projected dose distributions were validated against detectors in both 2D and 3D. Cross validation of transit dose delivered to a patient is limited due to reasons of practicality and the tests presented are recommended as a guideline for 3D EPID dosimetry commissioning; allowing direct comparison between detector, TPS, fluence and transit modes. The results indicate achievable gamma scores for a complex VMAT plan in a homogenous phantom geometry and contributes to growing experience of 3D EPID dosimetry.
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Stevens SW et al An assessment of a 3D Epid-based dosimetry system Physica Medica 20181.80 MBDownloadView
Author's Accepted Manuscript Open Access CC BY V4.0

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