Reproducibility of Nerve Fiber Layer Thickness Measurements Using Optical Coherence Tomography

Schuman, Joel S.; Pedut-Kloizman, Tamar; Hertzmark, Ellen; Hee, Michael R.; Wilkins, J. R.; Coker, J. G.; Puliafito, Carmen A.; Fujimoto, James G.; Swanson, Eric A.

doi:10.1016/s0161-6420(96)30410-7

Cited by 612 publications

(405 citation statements)

References 13 publications

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“…However, we found that the temporal RNFL thickness had a tendency to be thinner than the nasal quadrant. Similar to our results, observations between these two retinal areas that reached statistical significance, however, were described in works by Varma 32 and later reports by Schuman 23 and are also supported by histologic data. 33 We emphasize that there is a scarcity of published work on normal RNFL thickness using third-generation OCT. Because of its improved resolution, the anterior and posterior borders of RNFL are apt to be better defined.…”

Section: Discussionsupporting

confidence: 93%

“…Our results of overall RNFL thickness and thickness measurements in particular retinal areas using the new generation OCT are consistent with previous reports using a default scan diameter of 3.4 mm from the center of the optic nerve head 23,[27][28][29] (RM Vessani, Retinal nerve fiber layer thickness measured by OCT3 and central corneal thickness in ocular hypertensive patients, ARVO 2004, paper #3407). The RNFL was thickest in the superior and inferior retinal areas and thinner in the temporal and nasal ones, which is in agreement with other studies.…”

Section: Discussionsupporting

confidence: 90%

“…19,21,22 OCT, which uses short coherence length interferometer, has a fine resolution (cca 10 μm) and reflects the histologic characteristics of the tissue. Because OCT is based on cross-sectional images of the retina, the instrument measures the retinal NFL directly, has no need for a reference plane, and is known to be unaffected by the refractive status, axial length of the subject, sclerosis of the lens, 23 or pupillary dilation. 24,25 The only limitations of OCT imaging are the uncertainty of the assumed group refractive index of tissue, the effect of eye movements during the B-scan location, and the interface detection artifacts.…”

Section: Discussionmentioning

confidence: 99%

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Objective analysis of retinal damage in HIV-positive patients in the HAART era using OCT

Kozák

Bartsch

Cheng

et al. 2005

American Journal of Ophthalmology

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PURPOSE-To assess retinal nerve fiber layer (RNFL) thickness in patients with human immunodeficiency virus (HIV) disease without cytomegalovirus retinitis (CMV). DESIGN-A case-control study.METHODS-The study included 113 eyes of 65 patients in one center. Thickness of RNFL along a 3.4-mm-diameter circle centered on the optic nerve head was evaluated using third-generation optical coherence tomography. Patients in group A (39 eyes of 22 patients) were human immunodeficiency virus-negative control subjects. Group B (36 eyes of 18 patients) was composed of HIV patients with no history of CMV retinitis and CD4 counts consistently above 100. Group C (38 eyes of 25 patients) comprised HIV patients with no history of CMV retinitis but a history of CD4 count less than 100 at some point lasting for at least 6 months. RESULTS-The average RNFL thicknesses in groups A, B, and C were 103.33 ± 8.50 μm, 103.30 ± 9.28 μm, and 90.10 ± 12.50 μm, respectively. Group C had significantly thinner overall RNFL than either of the groups A and B (Tukey-Kramer). This difference was most prominent in temporal, superior, and inferior retinal areas. No difference was in nasal retinal area, nor between groups A and B in any of the areas.

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Section: Discussionsupporting

confidence: 93%

Section: Discussionsupporting

confidence: 90%

Section: Discussionmentioning

confidence: 99%

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Objective analysis of retinal damage in HIV-positive patients in the HAART era using OCT

Kozák

Bartsch

Cheng

et al. 2005

American Journal of Ophthalmology

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“…Detailed descriptions of the principles of OCT have already been published; a summary follows. [11][12][13][14][15][16][17][18][19][20][21][22][23] OCT is based on the principles of low coherence interferometry. By directing a low coherence light beam, which is analogous to a series of short pulses of light, onto a partially reflective mirror, two beams are created: reference and measurement beam.…”

Section: Oct Technologymentioning

confidence: 99%

Optical coherence tomography measurement of macular and nerve fiber layer thickness in normal and glaucomatous human eyes

et al. 2003

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Purpose-To evaluate the hypothesis that macular thickness correlates with the diagnosis of glaucoma.Design-Cross-sectional study.Participants-We studied 367 subjects (534 eyes), including 166 eyes of 109 normal subjects, 83 eyes of 58 glaucoma suspects, 196 eyes of 132 early glaucoma patients, and 89 eyes of 68 advanced glaucoma patients.Methods-We used optical coherence tomography (OCT) to measure macular and nerve fiber layer (NFL) thickness and to analyze their correlation with each other and with glaucoma status. We used both the commercial and prototype OCT units and evaluated correspondence between measurements performed on the same eyes on the same days. Main Outcome Measure-Macular and NFL thickness as measured by OCT.Results-All NFL parameters both in prototype and commercial OCT units were statistically significantly different comparing normal subjects and either early or advanced glaucoma (P < 0.001). Inner ring, outer ring, and mean macular thickness both in prototype and commercial OCT devices were found to be significantly different between normal subjects and advanced glaucomatous eyes (P < 0.001). The outer ring was the only macular parameter that could significantly differentiate between normal and early glaucoma with either the prototype or commercial OCT unit (P = 0.003, P = 0.008, respectively). The area under the receiver operator characteristic (AROC) curves comparing mean NFL thickness between normal and advanced glaucomatous eyes was 1.00 for both the prototype and commercial OCT devices for eyes scanned on both machines on the same day. The Reprint requests to Joel S. Schuman, MD, New England Eye Center, Tufts University School of Medicine, 750 Washington St, Box 450, Boston, MA 02111. Joel S. Schuman and Gadi Wollstein shared equal parts in the preparation of the manuscript.Presented in part at the American Academy of Ophthalmology (AAO), Orlando, Florida, 1999. NIH Public Access Author ManuscriptOphthalmology. Author manuscript; available in PMC 2007 August 15. Published in final edited form as:Ophthalmology. 2003 January ; 110(1): 177-189. NIH-PA Author ManuscriptNIH-PA Author Manuscript NIH-PA Author ManuscriptAROC comparing mean macular thickness in normal and advanced glaucomatous eyes scanned on both machines on the same day was 0.88 for the prototype OCT device and 0.80 for the commercial OCT.Conclusions-Both macular and NFL thickness as measured by OCT showed statistically significant correlations with glaucoma, although NFL thickness showed a stronger association than macular thickness. There was good correspondence between findings using both the prototype and commercial OCT units. Macular and NFL thickness measurements made with OCT may have usefulness in the clinical assessment of glaucoma.Glaucoma is a process in which a loss of retinal ganglion cells (RGCs) results in characteristic optic nerve and visual field abnormalities. Detection of glaucomatous damage is typically through observation of the optic nerve head and retinal nerve fiber layer (NFL) and measurem...

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“…7,8,[12][13][14] The reproducibility of ONH measurements using the Stratus OCT (Carl Zeiss Meditec, Dublin, CA, USA) was reported recently to be sufficient, especially regarding the cup-to-disc ratios (CDRs). 15 Although OCT may give objective measurement with less variation than biomicroscopy, this in itself does not mean that it will be more accurate in estimating the actual disc measurements.…”

Section: Introductionmentioning

confidence: 99%

Cup-to-disc ratio: agreement between slit-lamp indirect ophthalmoscopic estimation and stratus optical coherence tomography measurement

Arnalich‐Montiel¹,

Muñoz-Negrete²,

Rebolleda³

et al. 2006

Eye

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Cup-to-disc ratio: agreement between slit-lamp indirect ophthalmoscopic estimation and stratus optical coherence tomography measurement AbstractPurpose To determine agreement between slit-lamp indirect ophthalmoscopy and Stratus optical coherence tomography (OCT) when assessing cup-to-disc ratios (CDRs). Methods Twenty-five ocular hypertensive subjects and 56 patients with primary openangle glaucoma were included. Estimation of vertical (VCDR) and horizontal (HCDR) cupto-disc ratio with slit-lamp ophthalmoscopy was made by three glaucoma specialists along with OCT scanning of optic nerve head. Agreement between OCT and specialists was measured by intraclass correlation coefficients (ICC), Bland and Altman's scatterplots, and a regression coefficient of the average difference. Results The mean VCDR and HCDR was significantly higher (Po0.001) with OCT than that estimated by the specialists, with the difference ranging from 0.08 to 0.11, and from 0.13 to 0.18, respectively, depending on the specialist. Difference was higher (Po0.001) for cuppings below 0.3, and looses significance for larger VCDR cuppings (above 0.7). ICC for VCDR was 0.87 among specialists, and ranges from 0.82 to 0.75 when comparing OCT and specialists. ICC for HCDR was 0.83 among specialists and 0.74 between OCT and specialists. When data were plotted according to the Bland-Altman method, as the cupping increased, the agreement also increased. Conclusions There is very good agreement among the specialists when estimating CDRs by stereoscopic slit-lamp biomicroscopy. OCT shows higher values than the specialists; the greatest differences occurred when assessing small CDRs and the differences diminished as the cupping increased. These two methods of measurement are not interchangeable, and the difference must be considered, especially in discs with smaller CDRs.

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Reproducibility of Nerve Fiber Layer Thickness Measurements Using Optical Coherence Tomography

Cited by 612 publications

References 13 publications

Objective analysis of retinal damage in HIV-positive patients in the HAART era using OCT

Objective analysis of retinal damage in HIV-positive patients in the HAART era using OCT

Optical coherence tomography measurement of macular and nerve fiber layer thickness in normal and glaucomatous human eyes

Cup-to-disc ratio: agreement between slit-lamp indirect ophthalmoscopic estimation and stratus optical coherence tomography measurement

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