A Smartphone-Based Tool for Rapid, Portable, and Automated Wide-Field Retinal Imaging

PURPOSE: High-quality, wide-field retinal imaging is a valuable method for screening preventable, vision-threatening diseases of the retina. Smartphone-based retinal cameras hold promise for increasing access to retinal imaging, but variable image quality and restricted field of view can limit their...

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Autores principales: Kim, Tyson N., Myers, Frank, Reber, Clay, Loury, PJ, Loumou, Panagiota, Webster, Doug, Echanique, Chris, Li, Patrick, Davila, Jose R., Maamari, Robi N., Switz, Neil A., Keenan, Jeremy, Woodward, Maria A., Paulus, Yannis M., Margolis, Todd, Fletcher, Daniel A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Association for Research in Vision and Ophthalmology 2018
Materias:
Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6166894/
https://www.ncbi.nlm.nih.gov/pubmed/30280006
http://dx.doi.org/10.1167/tvst.7.5.21
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author Kim, Tyson N.
Myers, Frank
Reber, Clay
Loury, PJ
Loumou, Panagiota
Webster, Doug
Echanique, Chris
Li, Patrick
Davila, Jose R.
Maamari, Robi N.
Switz, Neil A.
Keenan, Jeremy
Woodward, Maria A.
Paulus, Yannis M.
Margolis, Todd
Fletcher, Daniel A.
author_facet Kim, Tyson N.
Myers, Frank
Reber, Clay
Loury, PJ
Loumou, Panagiota
Webster, Doug
Echanique, Chris
Li, Patrick
Davila, Jose R.
Maamari, Robi N.
Switz, Neil A.
Keenan, Jeremy
Woodward, Maria A.
Paulus, Yannis M.
Margolis, Todd
Fletcher, Daniel A.
author_sort Kim, Tyson N.
collection PubMed
description PURPOSE: High-quality, wide-field retinal imaging is a valuable method for screening preventable, vision-threatening diseases of the retina. Smartphone-based retinal cameras hold promise for increasing access to retinal imaging, but variable image quality and restricted field of view can limit their utility. We developed and clinically tested a smartphone-based system that addresses these challenges with automation-assisted imaging. METHODS: The system was designed to improve smartphone retinal imaging by combining automated fixation guidance, photomontage, and multicolored illumination with optimized optics, user-tested ergonomics, and touch-screen interface. System performance was evaluated from images of ophthalmic patients taken by nonophthalmic personnel. Two masked ophthalmologists evaluated images for abnormalities and disease severity. RESULTS: The system automatically generated 100° retinal photomontages from five overlapping images in under 1 minute at full resolution (52.3 pixels per retinal degree) fully on-phone, revealing numerous retinal abnormalities. Feasibility of the system for diabetic retinopathy (DR) screening using the retinal photomontages was performed in 71 diabetics by masked graders. DR grade matched perfectly with dilated clinical examination in 55.1% of eyes and within 1 severity level for 85.2% of eyes. For referral-warranted DR, average sensitivity was 93.3% and specificity 56.8%. CONCLUSIONS: Automation-assisted imaging produced high-quality, wide-field retinal images that demonstrate the potential of smartphone-based retinal cameras to be used for retinal disease screening. TRANSLATIONAL RELEVANCE: Enhancement of smartphone-based retinal imaging through automation and software intelligence holds great promise for increasing the accessibility of retinal screening.
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spelling pubmed-61668942018-10-02 A Smartphone-Based Tool for Rapid, Portable, and Automated Wide-Field Retinal Imaging Kim, Tyson N. Myers, Frank Reber, Clay Loury, PJ Loumou, Panagiota Webster, Doug Echanique, Chris Li, Patrick Davila, Jose R. Maamari, Robi N. Switz, Neil A. Keenan, Jeremy Woodward, Maria A. Paulus, Yannis M. Margolis, Todd Fletcher, Daniel A. Transl Vis Sci Technol Articles PURPOSE: High-quality, wide-field retinal imaging is a valuable method for screening preventable, vision-threatening diseases of the retina. Smartphone-based retinal cameras hold promise for increasing access to retinal imaging, but variable image quality and restricted field of view can limit their utility. We developed and clinically tested a smartphone-based system that addresses these challenges with automation-assisted imaging. METHODS: The system was designed to improve smartphone retinal imaging by combining automated fixation guidance, photomontage, and multicolored illumination with optimized optics, user-tested ergonomics, and touch-screen interface. System performance was evaluated from images of ophthalmic patients taken by nonophthalmic personnel. Two masked ophthalmologists evaluated images for abnormalities and disease severity. RESULTS: The system automatically generated 100° retinal photomontages from five overlapping images in under 1 minute at full resolution (52.3 pixels per retinal degree) fully on-phone, revealing numerous retinal abnormalities. Feasibility of the system for diabetic retinopathy (DR) screening using the retinal photomontages was performed in 71 diabetics by masked graders. DR grade matched perfectly with dilated clinical examination in 55.1% of eyes and within 1 severity level for 85.2% of eyes. For referral-warranted DR, average sensitivity was 93.3% and specificity 56.8%. CONCLUSIONS: Automation-assisted imaging produced high-quality, wide-field retinal images that demonstrate the potential of smartphone-based retinal cameras to be used for retinal disease screening. TRANSLATIONAL RELEVANCE: Enhancement of smartphone-based retinal imaging through automation and software intelligence holds great promise for increasing the accessibility of retinal screening. The Association for Research in Vision and Ophthalmology 2018-10-01 /pmc/articles/PMC6166894/ /pubmed/30280006 http://dx.doi.org/10.1167/tvst.7.5.21 Text en Copyright 2018 The Authors http://creativecommons.org/licenses/by-nc-nd/4.0/ This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
spellingShingle Articles
Kim, Tyson N.
Myers, Frank
Reber, Clay
Loury, PJ
Loumou, Panagiota
Webster, Doug
Echanique, Chris
Li, Patrick
Davila, Jose R.
Maamari, Robi N.
Switz, Neil A.
Keenan, Jeremy
Woodward, Maria A.
Paulus, Yannis M.
Margolis, Todd
Fletcher, Daniel A.
A Smartphone-Based Tool for Rapid, Portable, and Automated Wide-Field Retinal Imaging
title A Smartphone-Based Tool for Rapid, Portable, and Automated Wide-Field Retinal Imaging
title_full A Smartphone-Based Tool for Rapid, Portable, and Automated Wide-Field Retinal Imaging
title_fullStr A Smartphone-Based Tool for Rapid, Portable, and Automated Wide-Field Retinal Imaging
title_full_unstemmed A Smartphone-Based Tool for Rapid, Portable, and Automated Wide-Field Retinal Imaging
title_short A Smartphone-Based Tool for Rapid, Portable, and Automated Wide-Field Retinal Imaging
title_sort smartphone-based tool for rapid, portable, and automated wide-field retinal imaging
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6166894/
https://www.ncbi.nlm.nih.gov/pubmed/30280006
http://dx.doi.org/10.1167/tvst.7.5.21
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