Artificial intelligence-assisted quantitative CT analysis of airway changes following SABR for central lung tumors
- Author(s)
- Tekatli, H; Bohoudi, O; Hardcastle, N; Palacios, MA; Schneiders, FL; Bruynzeel, AME; Siva, S; Senan, S;
- Journal Title
- Radiotherapy and Oncology
- Publication Type
- Research article
- Abstract
- INTRODUCTION: Use of stereotactic ablative radiotherapy (SABR) for central lung tumors can result in up to a 35% incidence of late pulmonary toxicity. We evaluated an automated scoring method to quantify post-SABR bronchial changes by using artificial intelligence (AI)-based airway segmentation. MATERIALS AND METHODS: Central lung SABR patients treated at Amsterdam UMC (AUMC, internal reference dataset) and Peter MacCallum Cancer Centre (PMCC, external validation dataset) were identified. Patients were eligible if they had pre- and post-SABR CT scans with ≤ 1 mm resolution. The first step of the automated scoring method involved AI-based airway auto-segmentation using MEDPSeg, an end-to-end deep learning-based model. The Vascular Modeling Toolkit in 3D Slicer was then used to extract a centerline curve through the auto-segmented airway lumen, and cross-sectional measurements were computed along each bronchus for all CT scans. For AUMC patients, airway stenosis/occlusion was evaluated by both visual assessment and automated scoring. Only the automated method was applied to the PMCC dataset. RESULTS: Study patients comprised 26 from AUMC, and 33 from PMCC. Visual scoring identified stenosis/occlusion in 8 AUMC patients (31 %), most frequently in the segmental bronchi. After airway auto-segmentation, minor manual edits were needed in 9 % of patients. Segmentation for a single scan averaged 83sec (range 73-136). Automated scoring nearly doubled detected airway stenosis/occlusion (n = 15, 58 %), and allowed for earlier detection in 5/8 patients who had also visually scored changes. Estimated rates were 48 % and 66 % at 1- and 2-years, respectively, for the internal dataset. The automated detection rate was 52 % in the external dataset, with 1- and 2-year risks of 56 % and 61 %, respectively. CONCLUSION: An AI-based automated scoring method allows for detection of more bronchial stenosis/occlusion after lung SABR, and at an earlier time-point. This tool can facilitate studies to determine early airway changes and establish more reliable airway tolerance doses.
- Publisher
- Elsevier
- Department(s)
- Physical Sciences; Radiation Oncology
- Publisher's Version
- https://doi.org/10.1016/j.radonc.2024.110376
- Terms of Use/Rights Notice
- Refer to copyright notice on published article.
Creation Date: 2024-08-27 07:14:38
Last Modified: 2024-08-27 07:28:18