Generating 3D images of VMAT plans for predictive models and activation maps associated with plan deliverability

Cho, Hyeonjeong; Lee, Jae Sung; Kim, Jin Sung; Kim, Deok; Chang, Jee Suk; Byun, Hwa Kyung; Lee, Ik Jae; Kim, Yong Bae; Kim, Changhwan; Lee, Ho; Kim, Hojin

doi:10.1002/mp.17298

Medical Physics

2024

DOI: 10.1002/mp.17298

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Generating 3D images of VMAT plans for predictive models and activation maps associated with plan deliverability

Hyeonjeong Cho,

Jae Sung Lee,

Jin Sung Kim

et al.

Abstract: BackgroundIntensity modulation with dynamic multi‐leaf collimator (MLC) and monitor unit (MU) changes across control points (CPs) characterizes volumetric modulated arc therapy (VMAT). The increased uncertainty in plan deliverability required patient‐specific quality assurance (PSQA), which remained inefficient upon Quality Assurance (QA) failure. To prevent waste before QA, plan complexity metrics (PCMs) and machine learning models with the metrics were generated, which were lack of providing CP‐specific info… Show more

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Development of a new VMAT QA framework for Mobius3D using control-point specific EPID images

Seok,

Kim,

Han

et al. 2024

Front. Oncol.

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PurposeThis study presents novel quality assurance (QA) approach for volumetric modulated arc therapy (VMAT) that leverages frame-by-frame electronic portal imaging device (EPID) images integrated into Mobius3D for accurate three-dimensional dose calculations.MethodsSequential EPID images for VMAT plans were acquired every 0.4-second by iView system and processed through iterative deconvolution to mitigate blurring from photon scattering. Deconvolved images were binarized to define multi-leaf collimator (MLC) positions. Pre-acquired box fluences determined optimal threshold for binarization and adjusted for detector shift depending on gantry and collimator angles. Sequential EPID images were re-scaled using pixel scaling factor (PSF) and converted to monitor unit (MU) proportional values. Generated EPID-based log file, including control-point specific MLC and monitor units (MU) information, were analyzed in Mobius3D for Gamma passing rate (GPR) of VMAT plans from 18 patients. Plan complexity indices were calculated and correlated with GPR.ResultsClinically appropriate threshold was defined to be 20000 that can extract accurate MLC data from the deconvolved binarized EPID images. Positional deviations due to gantry and collimator rotations were observed to be up to 4.5 pixels. Recalibrated EPID pixel values showed linearity with MU regardless of changes in dose rate. Consequently, average GPR for 18 patients evaluated using Mobius3D reached 95.2% ± 3.7%%, based on 3% dose difference and 3mm distance-to-agreement criterion. It was found that two plan complexity indices showed statistically significant correlation with GPR.ConclusionThis study successfully implemented novel measurement-based VMAT QA framework based on control-point specific EPID, based upon accurate MLC and MU data at each frame.

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Development of a new VMAT QA framework for Mobius3D using control-point specific EPID images

Seok,

Kim,

Han

et al. 2024

Front. Oncol.

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show abstract

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Generating 3D images of VMAT plans for predictive models and activation maps associated with plan deliverability

Cited by 1 publication

References 45 publications

Development of a new VMAT QA framework for Mobius3D using control-point specific EPID images

Development of a new VMAT QA framework for Mobius3D using control-point specific EPID images

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