Literature DB >> 19259242

Spectral domain-optical coherence tomography to detect localized retinal nerve fiber layer defects in glaucomatous eyes.

Gianmarco Vizzeri1, Madhusudhanan Balasubramanian, Christopher Bowd, Robert N Weinreb, Felipe A Medeiros, Linda M Zangwill.   

Abstract

This study examines the ability of RTVue, Cirrus and Spectralis OCT Spectral domain-optical coherence tomographs (SD-OCT) to detect localized retinal nerve fiber layer defects in glaucomatous eyes. In this observational case series, four glaucoma patients (8 eyes) were selected from the University of California, San Diego Shiley Eye Center and the Diagnostic Innovations in Glaucoma Study (DIGS) based on the presence of documented localized RNFL defects in at least one eye confirmed by masked stereophotograph assessment. One RTVue 3D Disc scan, one RTVue NHM4 scan, one Cirrus Optic Disk Cube 200x200 scan and one Spectralis scan centered on the optic disc (15x15 scan angle, 768 A-scans x 73 B-scans) were obtained on all undilated eyes within a single session. Results were compared with those obtained from stereophotographs. In 6 eyes the presence of localized RNFL defects was detected by stereophotography. In general, by qualitatively evaluating the retinal thickness maps generated, all SD-OCT instruments examined were able to confirm the presence of localized glaucomatous structural damage seen on stereophotographs. This study confirms SD-OCT is a promising technology for glaucoma detection as it may assist clinicians identify the presence of localized glaucomatous structural damage.

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Year:  2009        PMID: 19259242      PMCID: PMC3465943          DOI: 10.1364/oe.17.004004

Source DB:  PubMed          Journal:  Opt Express        ISSN: 1094-4087            Impact factor:   3.894


  24 in total

1.  In vivo human retinal imaging by Fourier domain optical coherence tomography.

Authors:  Maciej Wojtkowski; Rainer Leitgeb; Andrzej Kowalczyk; Tomasz Bajraszewski; Adolf F Fercher
Journal:  J Biomed Opt       Date:  2002-07       Impact factor: 3.170

2.  Spectral domain optical coherence tomography: ultra-high speed, ultra-high resolution ophthalmic imaging.

Authors:  Teresa C Chen; Barry Cense; Mark C Pierce; Nader Nassif; B Hyle Park; Seok H Yun; Brian R White; Brett E Bouma; Guillermo J Tearney; Johannes F de Boer
Journal:  Arch Ophthalmol       Date:  2005-12

Review 3.  Recent developments in optical coherence tomography for imaging the retina.

Authors:  Mirjam E J van Velthoven; Dirk J Faber; Frank D Verbraak; Ton G van Leeuwen; Marc D de Smet
Journal:  Prog Retin Eye Res       Date:  2006-12-08       Impact factor: 21.198

4.  Performance of fourier domain vs. time domain optical coherence tomography.

Authors:  R Leitgeb; C Hitzenberger; Adolf Fercher
Journal:  Opt Express       Date:  2003-04-21       Impact factor: 3.894

5.  Diagnostic ability of optical coherence tomography with a normative database to detect localized retinal nerve fiber layer defects.

Authors:  Jin Wook Jeoung; Ki Ho Park; Tae Woo Kim; Sang In Khwarg; Dong Myung Kim
Journal:  Ophthalmology       Date:  2005-11-14       Impact factor: 12.079

Review 6.  New technology for high-speed and high-resolution optical coherence tomography.

Authors:  J G Fujimoto; B Bouma; G J Tearney; S A Boppart; C Pitris; J F Southern; M E Brezinski
Journal:  Ann N Y Acad Sci       Date:  1998-02-09       Impact factor: 5.691

7.  Evaluation of retinal nerve fiber layer, optic nerve head, and macular thickness measurements for glaucoma detection using optical coherence tomography.

Authors:  Felipe A Medeiros; Linda M Zangwill; Christopher Bowd; Roberto M Vessani; Remo Susanna; Robert N Weinreb
Journal:  Am J Ophthalmol       Date:  2005-01       Impact factor: 5.258

8.  Quantification of nerve fiber layer thickness in normal and glaucomatous eyes using optical coherence tomography.

Authors:  J S Schuman; M R Hee; C A Puliafito; C Wong; T Pedut-Kloizman; C P Lin; E Hertzmark; J A Izatt; E A Swanson; J G Fujimoto
Journal:  Arch Ophthalmol       Date:  1995-05

9.  Improved visualization of glaucomatous retinal damage using high-speed ultrahigh-resolution optical coherence tomography.

Authors:  Tarkan Mumcuoglu; Gadi Wollstein; Maciej Wojtkowski; Larry Kagemann; Hiroshi Ishikawa; Michelle L Gabriele; Vivek Srinivasan; James G Fujimoto; Jay S Duker; Joel S Schuman
Journal:  Ophthalmology       Date:  2007-09-20       Impact factor: 12.079

10.  Spectral domain optical coherence tomography for quantitative evaluation of drusen and associated structural changes in non-neovascular age-related macular degeneration.

Authors:  K Yi; M Mujat; B H Park; W Sun; J W Miller; J M Seddon; L H Young; J F de Boer; T C Chen
Journal:  Br J Ophthalmol       Date:  2008-08-12       Impact factor: 4.638
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  24 in total

Review 1.  Imaging of the retinal nerve fibre layer with spectral domain optical coherence tomography for glaucoma diagnosis.

Authors:  Kyung Rim Sung; Jong S Kim; Gadi Wollstein; Lindsey Folio; Michael S Kook; Joel S Schuman
Journal:  Br J Ophthalmol       Date:  2010-10-28       Impact factor: 4.638

2.  The comparison of manual vs automated disc margin delineation using spectral-domain optical coherence tomography.

Authors:  S M Iverson; M Sehi
Journal:  Eye (Lond)       Date:  2013-08-02       Impact factor: 3.775

3.  Tracking longitudinal retinal changes in experimental ocular hypertension using the cSLO and spectral domain-OCT.

Authors:  Li Guo; Eduardo M Normando; Shereen Nizari; David Lara; M Francesca Cordeiro
Journal:  Invest Ophthalmol Vis Sci       Date:  2010-08-04       Impact factor: 4.799

4.  Imaging of the optic nerve and retinal nerve fiber layer: an essential part of glaucoma diagnosis and monitoring.

Authors:  Jacek Kotowski; Gadi Wollstein; Hiroshi Ishikawa; Joel S Schuman
Journal:  Surv Ophthalmol       Date:  2013-10-16       Impact factor: 6.048

5.  Assessment of a Segmentation-Free Deep Learning Algorithm for Diagnosing Glaucoma From Optical Coherence Tomography Scans.

Authors:  Atalie C Thompson; Alessandro A Jammal; Samuel I Berchuck; Eduardo B Mariottoni; Felipe A Medeiros
Journal:  JAMA Ophthalmol       Date:  2020-04-01       Impact factor: 7.389

Review 6.  Clinical use of OCT in assessing glaucoma progression.

Authors:  Jacek Kotowski; Gadi Wollstein; Lindsey S Folio; Hiroshi Ishikawa; Joel S Schuman
Journal:  Ophthalmic Surg Lasers Imaging       Date:  2011-07

7.  Outer retinal abnormalities associated with inner retinal pathology in nonglaucomatous and glaucomatous optic neuropathies.

Authors:  J S Werner; J L Keltner; R J Zawadzki; S S Choi
Journal:  Eye (Lond)       Date:  2011-02-04       Impact factor: 3.775

8.  Detection of early glaucomatous damage in pseudo exfoliation syndrome by assessment of retinal nerve fiber layer thickness.

Authors:  Maha M Mohamed
Journal:  Middle East Afr J Ophthalmol       Date:  2009-07

9.  Detection of glaucoma progression with stratus OCT retinal nerve fiber layer, optic nerve head, and macular thickness measurements.

Authors:  Felipe A Medeiros; Linda M Zangwill; Luciana M Alencar; Christopher Bowd; Pamela A Sample; Remo Susanna; Robert N Weinreb
Journal:  Invest Ophthalmol Vis Sci       Date:  2009-10-08       Impact factor: 4.799

10.  Glaucoma Diagnosis and Monitoring Using Advanced Imaging Technologies.

Authors:  Mitra Sehi; Shawn M Iverson
Journal:  US Ophthalmic Rev       Date:  2013
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