Abstract
Knee osteoarthritis (OA) is a deliberating joint disorder characterized by cartilage loss that can be captured by imaging modalities and translated into imaging features. Observing imaging features is a well-known objective assessment for knee OA disorder. However, the variety of imaging features is rarely discussed. This study reviews knee OA imaging features with respect to different imaging modalities for traditional OA diagnosis and updates recent image-based machine learning approaches for knee OA diagnosis and prognosis. Although most studies recognized X-ray as standard imaging option for knee OA diagnosis, the imaging features are limited to bony changes and less sensitive to short-term OA changes. Researchers have recommended the usage of MRI to study the hidden OA-related radiomic features in soft tissues and bony structures. Furthermore, ultrasound imaging features should be explored to make it more feasible for point-of-care diagnosis. Traditional knee OA diagnosis mainly relies on manual interpretation of medical images based on the Kellgren–Lawrence (KL) grading scheme, but this approach is consistently prone to human resource and time constraints and less effective for OA prevention. Recent studies revealed the capability of machine learning approaches in automating knee OA diagnosis and prognosis, through three major tasks: knee joint localization (detection and segmentation), classification of OA severity, and prediction of disease progression. AI-aided diagnostic models improved the quality of knee OA diagnosis significantly in terms of time taken, reproducibility, and accuracy. Prognostic ability was demonstrated by several prediction models in terms of estimating possible OA onset, OA deterioration, progressive pain, progressive structural change, progressive structural change with pain, and time to total knee replacement (TKR) incidence. Despite research gaps, machine learning techniques still manifest huge potential to work on demanding tasks such as early knee OA detection and estimation of future disease events, as well as fundamental tasks such as discovering the new imaging features and establishment of novel OA status measure. Continuous machine learning model enhancement may favour the discovery of new OA treatment in future.
Highlights
Osteoarthritis (OA) is a degenerative joint disorder, characterized by cell stress and cartilage extracellular matrix degradation due to maladaptive repair responses actuated by micro- and macro-trauma [1]
Ntakolia et al [66] extracted a total of 725 features from nine categories, where only 21 features were under medical imaging outcome category, to build a prediction model for medial Joint space narrowing (JSN) progression using clustering, feature engineering, and classification algorithms
Automated knee joint detection and segmentation of knee joint components are significantly faster than manual detection and segmentation without compromising the high accuracy rate. e automated knee OA classification model has provided promising result, which is comparable to the medical experts’ interpretation
Summary
Osteoarthritis (OA) is a degenerative joint disorder, characterized by cell stress and cartilage extracellular matrix degradation due to maladaptive repair responses actuated by micro- and macro-trauma [1]. Knee OA disease management consists of two key elements: diagnosis and treatment. Knee OA diagnosis typically happens during moderate-to-late stage of disease, at a point where the irreversible joint damage is in evidence. It is worth noting that all currently available diagnostic methods require commitment from medical experts for high-level interpretation, which is usually time-consuming. Medical experts might misdiagnose the disease, causing patients to miss the best treatment time and subsequently develop permanent disability. To overcome this problem, high-end diagnostic system for early detection is strongly desired. Medical experts scarcely find the right intervention for the right patient at the right time to sustain the knee OA disease.
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