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Detecting hip osteoarthritis on clinical CT: a deep learning application based on 2-D summation images derived from CT

Robel K Gebre, Jukka Hirvasniemi, Rianne A. van der Heijden, Iikka Lantto, Simo Saarakkala, Juhana Leppilahti, Timo Jämsä

2021Osteoporosis International20 citationsDOIOpen Access PDF

Abstract

We developed and compared deep learning models to detect hip osteoarthritis on clinical CT. The CT-based summation images, CT-AP, that resemble X-ray radiographs can detect radiographic hip osteoarthritis and in the absence of large training data, a reliable deep learning model can be optimized by combining CT-AP and X-ray images. INTRODUCTION: In this study, we aimed to investigate the applicability of deep learning (DL) to assess radiographic hip osteoarthritis (rHOA) on computed tomography (CT). METHODS: The study data consisted of 94 abdominopelvic clinical CTs and 5659 hip X-ray images collected from Cohort Hip and Cohort Knee (CHECK). The CT slices were sequentially summed to create radiograph-like 2-D images named CT-AP. X-ray and CT-AP images were classified as rHOA if they had osteoarthritic changes corresponding to Kellgren-Lawrence grade 2 or higher. The study data was split into 55% training, 30% validation, and 15% test sets. A pretrained ResNet18 was optimized for a classification task of rHOA vs. no-rHOA. Five models were trained using (1) X-rays, (2) downsampled X-rays, (3) combination of CT-AP and X-ray images, (4) combination of CT-AP and downsampled X-ray images, and (5) CT-AP images. RESULTS: Amongst the five models, Model-3 and Model-5 performed best in detecting rHOA from the CT-AP images. Model-3 detected rHOA on the test set of CT-AP images with a balanced accuracy of 82.2% and was able to discriminate rHOA from no-rHOA with an area under the receiver operating characteristic curve (ROC AUC) of 0.93 [0.75-0.99]. Model-5 detected rHOA on the test set at a balanced accuracy of 82.2% and classified rHOA from no-rHOA with an ROC AUC of 0.89 [0.67-0.97]. CONCLUSION: CT-based summation images that resemble radiographs can be used to detect rHOA. In addition, in the absence of large training data, a reliable DL model can be optimized by combining CT-AP and X-ray images.

Topics & Concepts

RHOAOsteoarthritisMedicineRadiographyArtificial intelligenceRadiologyNuclear medicineComputed tomographyComputer sciencePathologyAlternative medicineBiochemistrySignal transductionChemistryOsteoarthritis Treatment and MechanismsBone and Joint DiseasesArtificial Intelligence in Healthcare and Education
Detecting hip osteoarthritis on clinical CT: a deep learning application based on 2-D summation images derived from CT | Litcius