PURPOSE: To analyze the impact of opacities in the optical pathway and image compression of 32-bit raw data to 8-bit jpg images on quantified optical coherence tomography (OCT) image analysis. METHODS: In 18 eyes of nine healthy subjects, OCT images were acquired from the central macula. To simulate opacities in the optical system, neutral-density (ND) filters with linear absorption spectra were placed between the OCT device and examined eyes. Light reflection profiles (LRPs) of images acquired with various ND filters were compared. LRPs of the 32-bit raw data were compared with those obtained from the 8-bit jpg compressed images. RESULTS: ND filters induced a linear decrease of reflectivity in OCT images, depending on initial signal intensity. Quantitative OCT analysis showed no significant difference between 32-bit raw data and 8-bit jpg files (P > 0.05). CONCLUSIONS: Quantitative OCT analysis is not significantly influenced by data compression. A mathematical model can correct for optical opacities to improve OCT images.
PURPOSE: To analyze the impact of opacities in the optical pathway and image compression of 32-bit raw data to 8-bit jpg images on quantified optical coherence tomography (OCT) image analysis. METHODS: In 18 eyes of nine healthy subjects, OCT images were acquired from the central macula. To simulate opacities in the optical system, neutral-density (ND) filters with linear absorption spectra were placed between the OCT device and examined eyes. Light reflection profiles (LRPs) of images acquired with various ND filters were compared. LRPs of the 32-bit raw data were compared with those obtained from the 8-bit jpg compressed images. RESULTS: ND filters induced a linear decrease of reflectivity in OCT images, depending on initial signal intensity. Quantitative OCT analysis showed no significant difference between 32-bit raw data and 8-bit jpg files (P > 0.05). CONCLUSIONS: Quantitative OCT analysis is not significantly influenced by data compression. A mathematical model can correct for optical opacities to improve OCT images.
Authors: Chieh-Li Chen; Hiroshi Ishikawa; Gadi Wollstein; Yun Ling; Richard A Bilonick; Larry Kagemann; Ian A Sigal; Joel S Schuman Journal: Invest Ophthalmol Vis Sci Date: 2013-05-17 Impact factor: 4.799
Authors: Zeba A Syed; Gustavo Rosa Gameiro; Marco Ruggeri; Amr Elsawy; Ibrahim Sayed-Ahmed; Vatookarn Roongpoovapatr; Mohamed Abdel-Mottaleb; Mohamed Abou Shousha Journal: Clin Ophthalmol Date: 2019-05-08
Authors: Katie M Litts; Erica N Woertz; Michalis Georgiou; Emily J Patterson; Byron L Lam; Gerald A Fishman; Mark E Pennesi; Christine N Kay; William W Hauswirth; Michel Michaelides; Joseph Carroll Journal: Transl Vis Sci Technol Date: 2021-01-07 Impact factor: 3.048