Clustering disease trajectories in contrastive feature space for biomarker discovery in age-related macular degeneration
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Age-related macular degeneration (AMD) is the leading cause of blindness in the elderly. Despite this, the exact dynamics of disease progression are poorly understood. There is a clear need for imaging biomarkers in retinal optical coherence tomography (OCT) that aid the diagnosis, prognosis and management of AMD. However, current grading systems, which coarsely group disease stage into broad categories describing early and intermediate AMD, have very limited prognostic value for the conversion to late AMD. In this paper, we are the first to analyse disease progression as clustered trajectories in a self-supervised feature space. Our method first pretrains an encoder with contrastive learning to project images from longitudinal time series to points in feature space. This enables the creation of disease trajectories, which are then denoised, partitioned and grouped into clusters. These clusters, found in two datasets containing time series of 7,912 patients imaged over eight years, were correlated with known OCT biomarkers. This reinforced efforts by four expert ophthalmologists to investigate clusters, during a clinical comparison and interpretation task, as candidates for time-dependent biomarkers that describe progression of AMD.
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