Deep learning‐based synthetic‐CT‐free photon dose calculation in MR‐guided radiotherapy: A proof‐of‐concept study
Fan Xiao, Domagoj Radonic, Niklas Wahl, Nikolaos Delopoulos, Adrian Thummerer, Stefanie Corradini, Claus Belka, George Dedes, Christopher Kurz, Guillaume Landry

TL;DR
This study shows a deep learning method can calculate radiation doses directly from MRI scans, skipping the need for synthetic CT scans in prostate cancer treatment planning.
Contribution
A novel deep learning approach for MRI-based dose calculation is proposed, enabling real-time plan adaptation in MR-guided radiotherapy.
Findings
The proposed model achieved a mean gamma passing rate above 99.50% for all photon beams.
Treatment plans recalculated by the model showed gamma passing rates exceeding 99.80%.
The model's inference time was approximately 12 ms per photon beam, enabling real-time use.
Abstract
In magnetic resonance imaging (MRI)‐guided online adaptive radiotherapy, MRI lacks tissue attenuation information necessary for accurate dose calculations. Although deep learning (DL)‐based synthetic computed tomography (CT) generation models have been developed to obtain CT density information from MRI, they usually do not meet the requirement of real‐time plan adaptation. We propose a DL‐based photon dose calculation method directly on 0.35 T MRI to skip synthetic CT generation and show its feasibility for prostate patient cases. The 0.35 T planning MRI and deformed planning CT (registered to the planning MRI) of 34 prostate cancer patients treated with a 0.35 T magnetic resonance‐linear accelerator (MR‐Linac) were collected. The air cavities (ACs) in the abdominopelvic area of the deformed CT images were corrected based on manual AC contouring on the MRI. Monte Carlo (MC) dose…
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Taxonomy
TopicsAdvanced Radiotherapy Techniques · Radiation Therapy and Dosimetry · Prostate Cancer Diagnosis and Treatment
