Reliability of Retinal Layer Annotation with a Novel, High-Resolution Optical Coherence Tomography Device: A Comparative Study

Abstract: Optical coherence tomography (OCT) enables in vivo diagnostics of individual retinal layers in the living human eye. However, improved imaging resolution could aid diagnosis and monitoring of retinal diseases and identify potential new imaging biomarkers. The investigational high-resolution OCT platform (High-Res OCT; 853 nm central wavelength, 3 µm axial-resolution) has an improved axial resolution by shifting the central wavelength and increasing the light source bandwidth compared to a conventional OCT devi… Show more

“…Future prospective studies documenting structural changes within a given individual will ultimately add to the observations made by Braeu and colleagues . New developments in imaging such as adaptive optics OCT and high- and ultra-high-resolution OCT, which are allowing enhanced visualization and segmentation of outer retinal structures and providing important biomarkers for the development of geographic atrophy, will enhance our understanding of structural progression in glaucoma. Imaging modalities with increased axial resolution may also allow segregation of neuronal and nonneuronal components in the rim and nerve fiber layer as these tissues remodel with age and glaucomatous loss.…”

Understanding the Increasing Role of Optical Coherence Tomography in Glaucoma Diagnostics and Disease Progression

“…Future prospective studies documenting structural changes within a given individual will ultimately add to the observations made by Braeu and colleagues . New developments in imaging such as adaptive optics OCT and high- and ultra-high-resolution OCT, which are allowing enhanced visualization and segmentation of outer retinal structures and providing important biomarkers for the development of geographic atrophy, will enhance our understanding of structural progression in glaucoma. Imaging modalities with increased axial resolution may also allow segregation of neuronal and nonneuronal components in the rim and nerve fiber layer as these tissues remodel with age and glaucomatous loss.…”

Understanding the Increasing Role of Optical Coherence Tomography in Glaucoma Diagnostics and Disease Progression

Atrophic Lesions Associated with Age-Related Macular Degeneration

Advances in Photoreceptor and Retinal pigment epithelium Quantifications in intermediate AMD: High-Res versus Standard SPECTRALIS OCT