Continuous time-resolved estimated synthetic 4D-CTs for dose reconstruction of lung tumor treatments at a 0.35 T MR-linac

Moritz Rabe; Chiara Paganelli; Henning Schmitz; Giorgia Meschini; Marco Riboldi; Jan Hofmaier; Lukas Nierer-Kohlhase; Julien Dinkel; Michael Reiner; Katia Parodi; Claus Belka; Guillaume Landry; Christopher Kurz; Florian Kamp

doi:10.1088/1361-6560/acf6f0

Continuous time-resolved estimated synthetic 4D-CTs for dose reconstruction of lung tumor treatments at a 0.35 T MR-linac

Phys Med Biol. 2023 Nov 28;68(23). doi: 10.1088/1361-6560/acf6f0.

Authors

Moritz Rabe¹, Chiara Paganelli², Henning Schmitz¹, Giorgia Meschini², Marco Riboldi³, Jan Hofmaier¹, Lukas Nierer-Kohlhase¹, Julien Dinkel^{4

5}, Michael Reiner¹, Katia Parodi³, Claus Belka^{1

6

7}, Guillaume Landry¹, Christopher Kurz¹, Florian Kamp^{1

8}

Affiliations

¹ Department of Radiation Oncology, LMU University Hospital, LMU Munich, Munich, Germany.
² Dipartimento di Elettronica, Informazione e Bioingegneria, Politecnico di Milano, Milano, Italy.
³ Department of Medical Physics, Ludwig-Maximilians-Universität München (LMU Munich), Garching (Munich), Germany.
⁴ Department of Radiology, LMU University Hospital, LMU Munich, Munich, Germany.
⁵ Comprehensive Pneumology Center, German Center for Lung Research (DZL), Munich, Germany.
⁶ German Cancer Consortium (DKTK), partner site Munich, a partnership between DKFZ and LMU University Hospital Munich, Germany.
⁷ Bavarian Cancer Research Center (BZKF), Munich, Germany.
⁸ Department of Radiation Oncology, University Hospital Cologne, Cologne, Germany.

PMID: 37669669
DOI: 10.1088/1361-6560/acf6f0

Abstract

Objective.To experimentally validate a method to create continuous time-resolved estimated synthetic 4D-computed tomography datasets (tresCTs) based on orthogonal cine MRI data for lung cancer treatments at a magnetic resonance imaging (MRI) guided linear accelerator (MR-linac).Approach.A breathing porcine lung phantom was scanned at a CT scanner and 0.35 T MR-linac. Orthogonal cine MRI series (sagittal/coronal orientation) at 7.3 Hz, intersecting tumor-mimicking gelatin nodules, were deformably registered to mid-exhale 3D-CT and 3D-MRI datasets. The time-resolved deformation vector fields were extrapolated to 3D and applied to a reference synthetic 3D-CT image (sCT_ref), while accounting for breathing phase-dependent lung density variations, to create 82 s long tresCTs at 3.65 Hz. Ten tresCTs were created for ten tracked nodules with different motion patterns in two lungs. For each dataset, a treatment plan was created on the mid-exhale phase of a measured ground truth (GT) respiratory-correlated 4D-CT dataset with the tracked nodule as gross tumor volume (GTV). Each plan was recalculated on the GT 4D-CT, randomly sampled tresCT, and static sCT_refimages. Dose distributions for corresponding breathing phases were compared in gamma (2%/2 mm) and dose-volume histogram (DVH) parameter analyses.Main results.The mean gamma pass rate between all tresCT and GT 4D-CT dose distributions was 98.6%. The mean absolute relative deviations of the tresCT with respect to GT DVH parameters were 1.9%, 1.0%, and 1.4% for the GTVD_98%,D_50%, andD_2%, respectively, 1.0% for the remaining nodulesD_50%, and 1.5% for the lungV_20Gy. The gamma pass rate for the tresCTs was significantly larger (p< 0.01), and the GTVD_50%deviations with respect to the GT were significantly smaller (p< 0.01) than for the sCT_ref.Significance.The results suggest that tresCTs could be valuable for time-resolved reconstruction and intrafractional accumulation of the dose to the GTV for lung cancer patients treated at MR-linacs in the future.

Keywords: MR-linac; dose reconstruction; lung cancer; porcine lung phantom; propagation method; synthetic 4D-CT.

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MeSH terms

Animals
Four-Dimensional Computed Tomography / methods
Humans
Lung
Lung Neoplasms* / diagnostic imaging
Lung Neoplasms* / radiotherapy
Magnetic Resonance Imaging
Magnetic Resonance Imaging, Cine
Radiotherapy Planning, Computer-Assisted / methods
Swine