Litcius/Paper detail

Daily dose evaluation based on corrected CBCTs for breast cancer patients: accuracy of dose and complication risk assessment

Vincent C. Hamming, Sebastian Andersson, John H. Maduro, Johannes A. Langendijk, Stefan Both, Nanna M. Sijtsema

2022Radiation Oncology14 citationsDOIOpen Access PDF

Abstract

Abstract Objectives The goal of this study is to validate different CBCT correction methods to select the superior method that can be used for dose evaluation in breast cancer patients with large anatomical changes treated with photon irradiation. Materials and method Seventy-six breast cancer patients treated with a partial VMAT photon technique (70% conformal, 30% VMAT) were included in this study. All patients showed at least a 5 mm variation (swelling or shrinkage) of the breast on the CBCT compared to the planning-CT ( pCT ) and had a repeat-CT ( rCT ) for dose evaluation acquired within 3 days of this CBCT. The original CBCT was corrected using four methods: (1) HU-override correction ( CBCT HU ), (2) analytical correction and conversion ( CBCT CC ), (3) deep learning (DL) correction ( CT DL ) and (4) virtual correction ( CT V ). Image quality evaluation consisted of calculating the mean absolute error ( MAE ) and mean error ( ME ) within the whole breast clinical target volume ( CTV ) and the field of view of the CBCT minus 2 cm ( CBCT-ROI ) with respect to the rCT. The dose was calculated on all image sets using the clinical treatment plan for dose and gamma passing rate analysis. Results The MAE of the CBCT-ROI was below 66 HU for all corrected CBCTs, except for the CBCT HU with a MAE of 142 HU. No significant dose differences were observed in the CTV regions in the CBCT CC , CT DL and CT v . Only the CBCT HU deviated significantly (p < 0.01) resulting in 1.7% ( ± 1.1%) average dose deviation. Gamma passing rates were > 95% for 2%/2 mm for all corrected CBCTs. Conclusion The analytical correction and conversion, deep learning correction and virtual correction methods can be applied for an accurate CBCT correction that can be used for dose evaluation during the course of photon radiotherapy of breast cancer patients.

Topics & Concepts

MedicineNuclear medicineBreast cancerRadiation therapyCone beam computed tomographyImage-guided radiation therapyRadiation treatment planningRadiologyComputed tomographyCancerInternal medicineAdvanced Radiotherapy TechniquesBreast Cancer Treatment StudiesDigital Radiography and Breast Imaging