Intraeye retinal nerve fiber layer and macular thickness asymmetry measurements for the discrimination of primary open-angle glaucoma and normal tension glaucoma

Khanal, Safal; Davey, Pinakin Gunvant; Racette, Lyne; Thapa, Madhu

doi:10.1016/j.optom.2015.10.002

Cited by 14 publications

(7 citation statements)

References 35 publications

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“…Furthermore, although a decrease in RNFL and macular thicknesses has been reported in glaucomatous eyes, there is a paucity of data on the discriminating capability of these parameters between NTG and POAG. We have previously established normative data on RNFL thickness in our population and also highlighted the relation between RNFL thickness and visual field sensitivity along with the significant potential of intraeye macular thickness asymmetry for the discrimination of NTG and POAG . In this study, we aimed to establish the distinction in these parameters between NTG and POAG to provide a new dimension to the diagnosis and management of these entities.…”

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confidence: 99%

“…We have previously established normative data on RNFL thickness in our population and also highlighted the relation between RNFL thickness and visual field sensitivity along with the significant potential of intraeye macular thickness asymmetry for the discrimination of NTG and POAG. 16,21,22 In this study, we aimed to establish the distinction in these parameters between NTG and POAG to provide a new dimension to the diagnosis and management of these entities. This could further contribute to early detection, prior to the observance of functional defects on the subjective tests.…”

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confidence: 99%

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Comparison of retinal nerve fiber layer and macular thickness for discriminating primary open‐angle glaucoma and normal‐tension glaucoma using optical coherence tomography

Khanal

Davey

Racette

et al. 2016

Clinical and Experimental Optometry

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Purpose The aim of this study was to evaluate the discrimination capabilities of macular and peripapillary retinal nerve fiber layer (pRNFL) thickness parameters as measured using spectral domain optical coherence tomography (SD‐OCT) between primary open‐angle glaucoma (POAG) and normal‐tension glaucoma (NTG). Methods A total of 90 subjects were enrolled: 30 healthy subjects, 30 subjects with POAG and 30 subjects with NTG, consecutively. Retinal nerve fiber layer thickness, macular thickness and volume measurements were obtained with circular and radial SD‐OCT scans. All parameters were compared between groups using an analysis of variance test. Areas under receiver‐operating characteristic (AROC) curves with sensitivities at specificities greater than or equal to 90 per cent were generated to compare discrimination capabilities of various parameters between POAG and NTG. Results Macular thickness and volume measurements were the highest in normal subjects, followed by NTG and POAG (p < 0.05). Average retinal nerve fiber layer thickness had perfect discrimination for normal‐POAG (AROC: 1.000; sensitivity: 100 per cent) and near perfect discrimination for normal‐NTG (AROC: 0.979; sensitivity: 93 per cent) as well as NTG‐POAG pairs (AROC: 0.900; sensitivity: 60 per cent). Inferior outer macular thickness (IOMT) and total volume were the best macular thickness and volume parameters having similar AROCs and sensitivities between normal and POAG (IOMT, AROC: 0.987; sensitivity: 92 per cent and total volume, AROC: 0.997; sensitivity: 97 per cent), normal and NTG (IOMT, AROC: 0.862, sensitivity: 47 per cent and total volume, AROC: 0.898, sensitivity: 67 per cent) and also between NTG and POAG (IOMT, AROC: 0.910, sensitivity: 53 per cent and total volume, AROC: 0.922, sensitivity: 77 per cent). In each comparison group, there was no statistically significant difference in AROCs between average retinal nerve fiber layer and inferior outer macular thickness, as well as total volume. Conclusions The macular parameters offer comparable performance to pRNFL parameters for the discrimination of NTG and POAG. Average retinal nerve fiber layer thickness, total macular volume and inferior outer macular thickness were the best SD‐OCT parameters with superior discriminating capabilities.

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Comparison of retinal nerve fiber layer and macular thickness for discriminating primary open‐angle glaucoma and normal‐tension glaucoma using optical coherence tomography

Khanal

Davey

Racette

et al. 2016

Clinical and Experimental Optometry

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“…30 Utility of vertical macular asymmetry for glaucoma detection has been the subject of a number of studies since then. 7,25,72,76,168,186,191,226,227,344,366,386,414,416,418 However, differences in study design including sample size, type of glaucoma, refractive error, ethnicity, disease stage, layer(s) of interest and method of asymmetry analysis should be considered when comparing the results of these studies. Most current SD-OCT devices are able to measure GCC, GCIPL, mRNFL, and FMT that could be used for hemispheric intra-eye or inter-eye asymmetry comparisons.…”

Section: F Alternative Macular Outcome Measures: Vertical Macular Asymmetry and Microcystic Macular Edemamentioning

confidence: 99%

“…Various methods have been used to estimate vertical asymmetry along the temporal raphe or horizontal midline, including thickness difference, 25,76,168,186,191,227,333,335,344,366,386,416 inferior to superior retinal thickness ratio, 30, 186 and the absolute value of the logarithm of superior/inferior retinal thickness. 168,414 Spectralis SD-OCT (Heidelberg Engineering, Germany) was the first OCT device to incorporate a macular asymmetry analysis within its macular imaging algorithm (PPA) (Figure 6).…”

Section: F Alternative Macular Outcome Measures: Vertical Macular Asymmetry and Microcystic Macular Edemamentioning

confidence: 99%

Macular imaging with optical coherence tomography in glaucoma

Mohammadzadeh

Fatehi

Yarmohammadi

et al. 2020

Survey of Ophthalmology

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“…4,5 In normal eyes, the retinal layers seem to be fairly symmetric in terms of the mean thickness in the central parafoveal region between the upper and lower segments as determined by SD-OCT. 6 Asymmetrical differences in the thickness of the inner retinal layer between the upper and lower segments of the macula in PPG eyes were initially investigated using SD-OCT in 2011. 7 Since then, several studies have revealed that asymmetry in the thickness of the retinal layers tends to offer better diagnostic performance than assessment of other thickness parameters, [8][9][10][11][12][13][14] and asymmetry in the thickness of the ganglion cell layer (GCL)/inner plexiform layer (IPL) tends to offer better diagnostic performance than in the RNFL layer in glaucomatous or PPG eyes. 15 However, the degree of difference between the values of the upper and lower segments of the macular inner retinal layers that defines abnormal conditions in the clinical diagnosis of PPG remains to be determined.…”

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confidence: 99%

Ability of Macular Inner Retinal Layer Thickness Asymmetry Evaluated by Optical Coherence Tomography to Detect Preperimetric Glaucoma

Takemoto

Higashide

Ohkubo

et al. 2020

Trans. Vis. Sci. Tech.

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Citation: Takemoto D, Higashide T, Ohkubo S, Udagawa S, Sugiyama K. Ability of macular inner retinal layer thickness asymmetry evaluated by optical coherence tomography to detect preperimetric glaucoma. Trans Vis Sci Tech. 2020;9(5):8, https://doi.org/10.1167/tvst.9.5.8 Purpose:We assessed the ability to detect preperimetric glaucoma (PPG) based on asymmetry in the thickness of the macular inner retinal layers measured by spectraldomain optical coherence tomography. Methods:We studied 45 normal eyes and 50 PPG eyes retrospectively. Threedimensional optical coherence tomography macular area scans were used to obtain the thickness of the retinal nerve fiber layer (RNFL), ganglion cell layer/inner plexiform layer (GCL/IPL), and ganglion cell complex (GCC). We calculated the thickness differences between the upper and lower macular hemispheres for the corresponding superpixels, then evaluated the mean absolute value of the thickness differences and the number of superpixels in which the thickness difference was greater than X μm, where X is an integer number from 1 to 10. Areas under the receiver operating characteristic curves (AUCs) for their PPG diagnostic performances were compared to the average thickness measurements of the total and hemiretinal sectors. X was determined at the maximum AUC value. Results:The AUC for the mean absolute value of the difference in GCL/IPL thickness (0.923) was higher than the difference in RNFL and GCC thickness (0.710 and 0.905, respectively). The AUC for the number of superpixels in which the GCL/IPL thickness difference was greater than 8 μm (X = 8) was 0.914. The ability to diagnose PPG using these GCL/IPL parameters was statistically higher than for total or superior and inferior hemiretinal GCL/IPL thicknesses. Conclusions:Asymmetry in the thickness of the GCL/IPL shows good PPG diagnostic performance.Translational Relevance: This approach would be useful in the early detection of glaucoma.

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Intraeye retinal nerve fiber layer and macular thickness asymmetry measurements for the discrimination of primary open-angle glaucoma and normal tension glaucoma

Cited by 14 publications

References 35 publications

Comparison of retinal nerve fiber layer and macular thickness for discriminating primary open‐angle glaucoma and normal‐tension glaucoma using optical coherence tomography

Comparison of retinal nerve fiber layer and macular thickness for discriminating primary open‐angle glaucoma and normal‐tension glaucoma using optical coherence tomography

Macular imaging with optical coherence tomography in glaucoma

Ability of Macular Inner Retinal Layer Thickness Asymmetry Evaluated by Optical Coherence Tomography to Detect Preperimetric Glaucoma

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