Effect of synthetic CT on dose-derived toxicity predictors for MR-only prostate radiotherapy
Christopher Thomas, Isabel Dregely, Ilkay Oksuz, Teresa Guerrero Urbano, Tony Greener, Andrew P King, Sally F Barrington

TL;DR
This study compares different methods for creating synthetic CT scans to improve toxicity predictions in prostate cancer radiotherapy using only MRI.
Contribution
The study introduces a deep-learning approach for synthetic CT generation that improves toxicity prediction accuracy in MR-only radiotherapy.
Findings
Deep-learning sCT showed the lowest prediction error for rectal bleeding risk (0.1%) compared to other methods.
Both tissue stratification and deep-learning methods are clinically suitable for sCT generation in toxicity-guided radiotherapy.
Deep-learning sCT improves accuracy and eliminates the need for T1-Dixon MR scans.
Abstract
Toxicity-driven adaptive radiotherapy (RT) is enhanced by the superior soft tissue contrast of magnetic resonance (MR) imaging compared with conventional computed tomography (CT). However, in an MR-only RT pathway synthetic CTs (sCT) are required for dose calculation. This study evaluates 3 sCT approaches for accurate rectal toxicity prediction in prostate RT. Thirty-six patients had MR (T2-weighted acquisition optimized for anatomical delineation, and T1-Dixon) with same day standard-of-care planning CT for prostate RT. Multiple sCT were created per patient using bulk density (BD), tissue stratification (TS, from T1-Dixon) and deep-learning (DL) artificial intelligence (AI) (from T2-weighted) approaches for dose distribution calculation and creation of rectal dose volume histograms (DVH) and dose surface maps (DSM) to assess grade-2 (G2) rectal bleeding risk. Maximum absolute errors…
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Taxonomy
TopicsAdvanced Radiotherapy Techniques · Advanced X-ray and CT Imaging · Radiation Dose and Imaging
