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A deep learning‐based model for characterization of atherosclerotic plaque in coronary arteries using optical coherence tomography  images

Atefeh Abdolmanafi, Luc Duong, Ragui Ibrahim, Nagib Dahdah

2021Medical Physics24 citationsDOI

Abstract

PURPOSE: Coronary artery events are mainly associated with atherosclerosis in adult population, which is recognized as accumulation of plaques in arterial wall tissues. Optical Coherence Tomography (OCT) is a light-based imaging system used in cardiology to analyze intracoronary tissue layers and pathological formations including plaque accumulation. This state-of-the-art catheter-based imaging system provides intracoronary cross-sectional images with high resolution of 10-15 µm. But interpretation of the acquired images is operator dependent, which is not only very time-consuming but also highly error prone from one observer to another. An automatic and accurate coronary plaque tagging using OCT image post-processing can contribute to wide adoption of the OCT system and reducing the diagnostic error rate. METHOD: In this study, we propose a combination of spatial pyramid pooling module with dilated convolutions for semantic segmentation to extract atherosclerotic tissues regardless of their types and training a sparse auto-encoder to reconstruct the input features and enlarge the training data as well as plaque type characterization in OCT images. RESULTS: The results demonstrate high precision of the proposed model with reduced computational complexity, which can be appropriate for real-time analysis of OCT images. At each step of the work, measured accuracy, sensitivity, specificity of more than 93% demonstrate high performance of the model. CONCLUSION: The main focus of this study is atherosclerotic tissue characterization using OCT imaging. This contributes to wide adoption of the OCT imaging system by providing clinicians with a fully automatic interpretation of various atherosclerotic tissues. Future studies will be focused on analyzing atherosclerotic vulnerable plaques, those coronary plaques which are prone to rupture.

Topics & Concepts

Optical coherence tomographyArtificial intelligenceCoronary arteriesComputer scienceSegmentationCoronary atherosclerosisVulnerable plaqueComputer visionMedical imagingMedicineBiomedical engineeringRadiologyArteryCoronary artery diseasePathologyInternal medicineCoronary Interventions and DiagnosticsOptical Coherence Tomography ApplicationsRetinal Imaging and Analysis
A deep learning‐based model for characterization of atherosclerotic plaque in coronary arteries using optical coherence tomography  images | Litcius