Dense Optic Nerve Head Deformation Estimated using CNN as a Structural Biomarker of Glaucoma Progression

Abstract: Purpose: To present a new structural biomarker for detecting glaucoma progression based on structural transformation of the optic nerve head (ONH) region. Methods: A dense ONH deformation was estimated using deep learning methods namely DDCNet-Multires, FlowNet2, and FlowNet-Correlation, and legacy computational methods namely the topographic change analysis (TCA) and proper orthogonal decomposition (POD) methods using longitudinal confocal scans of the ONH for each study eye. A candidate structural biomarker… Show more

“…In this work, we specifically investigate the utility of the DDCNet-Multires architecture for estimating optic nerve head deformation 31,30 . In DDCNets, a systematic use of dilated convolutional layers is used to achieve the desired spatial characteristics, shape and texture of the receptive field.…”

Dense optic nerve head deformation estimated using CNN as a structural biomarker of glaucoma progression

“…In this work, we specifically investigate the utility of the DDCNet-Multires architecture for estimating optic nerve head deformation 31,30 . In DDCNets, a systematic use of dilated convolutional layers is used to achieve the desired spatial characteristics, shape and texture of the receptive field.…”

Dense optic nerve head deformation estimated using CNN as a structural biomarker of glaucoma progression