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Deep Learning-Based Image Conversion Improves the Reproducibility of Computed Tomography Radiomics Features

Seul Bi Lee, Yeon Jin Cho, Youngtaek Hong, Dawun Jeong, Jina Lee, Soohyun Kim, Seunghyun Lee, Young Hun Choi

2021Investigative Radiology28 citationsDOIOpen Access PDF

Abstract

OBJECTIVES: This study aimed to evaluate the usefulness of deep learning-based image conversion to improve the reproducibility of computed tomography (CT) radiomics features. MATERIALS AND METHODS: This study was conducted using an abdominal phantom with liver nodules. We developed an image conversion algorithm using a residual feature aggregation network to reproduce radiomics features with CT images under various CT protocols and reconstruction kernels. External validation was performed using images from different scanners, consisting of 8 different protocols. To evaluate the variability of radiomics features, regions of interest (ROIs) were drawn by targeting the liver parenchyma, vessels, paraspinal area, and liver nodules. We extracted 18 first-order, 68 second-order, and 688 wavelet radiomics features. Measurement variability was assessed using the concordance correlation coefficient (CCC), compared with the ground-truth image. RESULTS: In the ROI-based analysis, there was an 83.3% improvement of CCC (80/96; 4 ROIs with 3 categories of radiomics features and 8 protocols) in synthetic images compared with the original images. Among them, the 56 CCC pairs showed a significant increase after image synthesis. In the radiomics feature-based analysis, 62.0% (3838 of 6192; 774 radiomics features with 8 protocols) features showed increased CCC after image synthesis, and a significant increase was noted in 26.9% (1663 of 6192) features. In particular, the first-order feature (79.9%, 115/144) showed better improvement in terms of the reproducibility of radiomics feature than the second-order (59.9%, 326/544) or wavelet feature (61.7%, 3397/5504). CONCLUSIONS: Our study demonstrated that a deep learning model for image conversion can improve the reproducibility of radiomics features across various CT protocols, reconstruction kernels, and CT scanners.

Topics & Concepts

ReproducibilityRadiomicsFeature (linguistics)Artificial intelligenceConcordance correlation coefficientGround truthPattern recognition (psychology)Computer scienceImaging phantomResidualComputed tomographyConcordanceRadiologyNuclear medicineMedicineMathematicsStatisticsAlgorithmInternal medicinePhilosophyLinguisticsRadiomics and Machine Learning in Medical ImagingAdvanced X-ray and CT ImagingArtificial Intelligence in Healthcare and Education