Prediction of Consolidation Tumor Ratio on Planning CT Images of Lung Cancer Patients Treated with Radiotherapy Based on Deep Learning

This study aimed to propose an automated prediction approach of the consolidation tumor ratios (CTRs) of part-solid tumors of patients treated with radiotherapy on treatment planning computed tomography images using deep learning segmentation (DLS) models. For training the DLS model for cancer regio...

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Bibliographic Details
Published inApplied sciences Vol. 14; no. 8; p. 3275
Main Authors Tong, Yizhi, Arimura, Hidetaka, Yoshitake, Tadamasa, Cui, Yunhao, Kodama, Takumi, Shioyama, Yoshiyuki, Wirestam, Ronnie, Yabuuchi, Hidetake
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.04.2024
Subjects
Automation
Cancer and Oncology
Cancer och onkologi
Cancer therapies
Care and treatment
Clinical Medicine
consolidation tumor ratio
CT imaging
Datasets
Deep learning
independent test
Klinisk medicin
Lung cancer
Lung cancer, Non-small cell
Medical and Health Sciences
Medicin och hälsovetenskap
non-small cell lung cancer (NSCLC)
part-solid tumors
Radiation therapy
Radiotherapy
Scanners
Squamous cell carcinoma
Tumors
Japan
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Summary:This study aimed to propose an automated prediction approach of the consolidation tumor ratios (CTRs) of part-solid tumors of patients treated with radiotherapy on treatment planning computed tomography images using deep learning segmentation (DLS) models. For training the DLS model for cancer regions, a total of 115 patients with non-small cell lung cancer (NSCLC) who underwent stereotactic body radiation therapy were selected as the training dataset, including solid, part-solid, and ground-glass opacity tumors. For testing the automated prediction approach of CTRs based on segmented tumor regions, 38 patients with part-solid tumors were selected as an internal test dataset A (IN) from a same institute as the training dataset, and 49 patients as an external test dataset (EX) from a public database. The CTRs for part-solid tumors were predicted as ratios of the maximum diameters of solid components to those of whole tumors. Pearson correlations between reference and predicted CTRs for the two test datasets were 0.953 (IN) and 0.926 (EX) for one of the DLS models (p < 0.01). Intraclass correlation coefficients between reference and predicted CTRs for the two test datasets were 0.943 (IN) and 0.904 (EX) for the same DLS models. The findings suggest that the automated prediction approach could be robust in calculating the CTRs of part-solid tumors.
ISSN:2076-3417
2076-3417
DOI:10.3390/app14083275