Abstract
Optical coherence tomography (OCT) is a medical image modality that is used to capture, non-invasively, high-resolution cross-sectional images of the retinal tissue. These images constitute a suitable scenario for the diagnosis of relevant eye diseases like the vitreomacular traction or the diabetic retinopathy. The identification of the epiretinal membrane (ERM) is a relevant issue as its presence constitutes a symptom of diseases like the macular edema, deteriorating the vision quality of the patients. This work presents an automatic methodology for the identification of the ERM presence in OCT scans. Initially, a complete and heterogeneous set of features was defined to capture the properties of the ERM in the OCT scans. Selected features went through a feature selection process to further improve the method efficiency. Additionally, representative classifiers were trained and tested to measure the suitability of the proposed approach. The method was tested with a dataset of 285 OCT scans labeled by a specialist. In particular, 3,600 samples were equally extracted from the dataset, representing zones with and without ERM presence. Different experiments were conducted to reach the most suitable approach. Finally, selected classifiers were trained and compared using different metrics, providing in the best configuration an accuracy of 89.35%.
Highlights
The epiretinal membrane (ERM), known as macular pucker, is a pathological condition that makes the vitreous shrink, being detached in advanced stages from the retinal layers
Other ocular diseases that can induce the ERM appearance can cause the proliferation of secondary ERMs
The proposed system receives Optical coherence tomography (OCT) images as input. These OCT scans provide meaningful information to make an assumption about the presence or absence of ERM in patient’s retina
Summary
The epiretinal membrane (ERM), known as macular pucker, is a pathological condition that makes the vitreous shrink, being detached in advanced stages from the retinal layers. This fibrocellular proliferation produces the vision loss, being its presence mainly associated to diseases like the macular edema or metamorphopsia [1]. It is usually asymptomatic and does not present a clear and unique identifiable cause. Other ocular diseases (vitreous hemorrhage, diabetic retinopathy, retinal angioma, among others) that can induce the ERM appearance can cause the proliferation of secondary ERMs
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