PURPOSE: To explore the progressive change and associated factors of optic disc tilt in young myopic glaucomatous eyes by analyzing long-term follow-up data.METHODS: Optic disc images were obtained from spectral-domain optical coherence tomography enhanced depth imaging from at least five different visits. At each visit, the disc tilt angle (DTA), defined as the angle between the Bruch's membrane opening plane and the optic canal plane, was estimated at the central frame that passes through the optic disc. Glaucoma progression was assessed on the basis of changes noted on serial optic disc and retinal nerve fiber layer photographs or changes in the visual field (VF). A linear mixed effect model was used to assess the influence of parameters (age, sex, baseline and follow-up intraocular pressure, retinal nerve fiber layer thickness, VF mean deviation, axial length, central corneal thickness), and presence of glaucomatous progression upon DTA change.RESULTS: A total of 26 eyes of 26 young myopic primary open-angle glaucoma patients (axial length >24.0 mm; mean age, 25.1 ± 4.0 years; mean follow-up, 3.3 ± 0.9 years) were included. DTA was 7.0 ± 3.4 degrees at baseline and 8.3 ± 3.8 degrees at last visit, which represents a significant difference (p < 0.001). Worse VF mean deviation (p < 0.001) and longer axial length (p = 0.006) were significantly associated with DTA increase.CONCLUSIONS: Young myopic glaucomatous eyes showed progressive optic disc tilting. Progressive optic disc tilting in young myopic glaucomatous eyes may be related to either continuous axial myopic shift or glaucomatous structural change.
Bruch Membrane ; Follow-Up Studies ; Glaucoma ; Glaucoma, Open-Angle ; Humans ; Intraocular Pressure ; Myopia ; Nerve Fibers ; Optic Disk ; Retinaldehyde ; Tomography, Optical Coherence ; Visual Fields

PURPOSE: To investigate the relationship between the progression of visual field (VF) loss and changes in lamina cribrosa depth (LCD) as determined by spectral-domain optical coherence tomography (SD-OCT) enhanced depth imaging in patients with primary open angle glaucoma (POAG). METHODS: Data from 60 POAG patients (mean follow-up, 3.5 ± 0.7 years) were included in this retrospective study. The LCD was measured in the optic disc image using SD-OCT enhanced depth imaging scanning at each visit. Change in the LCD was considered to either ‘increase’ or ‘decrease’ when the differences between baseline and the latest two consecutive follow-up visits were greater than the corresponding reproducibility coefficient value (23.08 µm, as determined in a preliminary reproducibility study). All participants were divided into three groups: increased LCD (ILCD), decreased LCD (DLCD), and no LCD change (NLCD). The Early Manifest Glaucoma Trial criteria were used to define VF deterioration. Kaplan-Meier survival analysis and Cox's proportional hazard models were performed to explore the relationship between VF progression and LCD change. RESULTS: Of the 60 eyes examined, 35.0% (21 eyes), 28.3% (17 eyes), and 36.7% (22 eyes) were classified as the ILCD, DLCD, and NLCD groups, respectively. Kaplan-Meier survival analysis showed a greater cumulative probability of VF progression in the ILCD group than in the NLCD (p < 0.001) or DLCD groups (p = 0.018). Increased LCD was identified as the only risk factor for VF progression in the Cox proportional hazard models (hazard ratio, 1.008; 95% confidence interval, 1.000 to 1.015; p = 0.047). CONCLUSIONS: Increased LCD was associated with a greater possibility of VF progression. The quantitative measurement of LCD changes, determined by SD-OCT, is a potential biomarker for the prediction of VF deterioration in patients with POAG.
Follow-Up Studies ; Glaucoma ; Glaucoma, Open-Angle ; Humans ; Optic Disk ; Proportional Hazards Models ; Retrospective Studies ; Risk Factors ; Tomography, Optical Coherence ; Visual Fields*

Background: Currently, spectral-domain optical coherence tomography (SD-OCT) appears to be a new type of glaucoma diagnostic tool. Thus, this study aimed to evaluate the effectiveness of glaucoma diagnostic parameters from SD-OCT of patients with different severities of myopia. Methods: This was a cross-sectional study. A total of 248 participants (248 eyes) were enrolled, including 51 cases in the early primary open-angle glaucoma group, 79 cases in the control group (0.50 D to -0.50 D, excluding -0.50 D), 47 cases in the low-myopic group (-0.50 to -3.00 D, excluding -3.00 D), 43 cases in the moderate-myopic group (-3.00 to -6.00 D, excluding -6.00 D), and 28 cases in the high-myopic group (≤-6.00 D). All participants were examined using the Humphrey visual field test and SD-OCT. The SD-OCT parameters of the retinal nerve fiber layer (RNFL) and ganglion cell complex were analyzed statistically using the receiver operating characteristic curve and area under the curve (AUC). Results: The AUC showed that the best parameters for the control and low-myopic groups were the inferior and inferior temporal RNFL thicknesses (AUC >0.94), respectively; for the moderate- and high-myopic groups, the best parameter was the temporal low RNFL thickness (AUC, 0.926 and 0.896, respectively). The AUC of the inferior parameters of the moderate-myopic group (0.864) was lower, ranked 15 among all RNFL parameters. When the sensitivity was fixed at 85%, the specificity of the inferior, superior, inferior temporal, and superior temporal quadrants was higher (>80%) in the control and low-myopic groups, while they were lower (20-60%) for the moderate- and high-myopia groups. The green color based on the OCT database was also less for the high-myopic group compared with that of other groups (P < 0.05). Conclusions Glaucoma diagnostic parameters from SD-OCT were not clinically effective for the moderate- and high-myopic groups. The specificities were low. The moderate- and high-myopic groups require comprehensive analyses for the diagnoses of glaucoma. The SD-OCT database should be improved to better indicate the level of myopia based on the corresponding diopter readings.
Aged ; Case-Control Studies ; Cross-Sectional Studies ; Female ; Glaucoma ; diagnostic imaging ; Glaucoma, Open-Angle ; Humans ; Male ; Middle Aged ; Nerve Fibers ; Optic Disk ; ROC Curve ; Retinal Ganglion Cells ; Tomography, Optical Coherence ; Visual Fields

PURPOSE: Optic nerve head surface depression in patients with glaucoma has been previously reported. We quantitatively compared the mean optic disc cup surface depth between glaucoma-like disc (GLD) patients with large cup-to-disc ratios and primary open-angle glaucoma (POAG) patients. METHODS: A total of 40 eyes of 40 patients with GLD and 40 eyes of 40 patients with POAG were included in this study. All patients had an average cup-to-disc ratio of 0.7–0.8. The optic disc area, mean cup-to-disc ratio, and mean optic disc cup volume were measured using spectral domain optical coherence tomography (Cirrus™ HD-OCT; Carl Zeiss Meditec, Inc., Dublin, CA, USA). The mean optic disc cup surface depth was calculated using the formula: (mean optic disc cup volume/[optic disc area × mean cup-to-disc ratio2]) − 200 µm. RESULTS: The mean ages of patients were 61.18 ± 11.83 and 59.65 ± 11.69 years for the GLD and POAG groups, respectively. The average cup-to-disc ratios were 0.74 ± 0.03 and 0.75 ± 0.03 for the GLD and POAG groups, respectively, but no significant difference was observed between the two groups. The mean optic disc cup surface depths were 144.74 ± 82.78 µm and 199.53 ± 90.26 µm for the GLD and POAG groups, respectively, and the difference between the two groups was statistically significant (p = 0.006, t-test). CONCLUSIONS: POAG patients showed a significantly greater mean optic disc cup surface depth compared to GLD patients with a similar mean cup-to-disc ratio. Based on the results of spectral domain optical coherence tomography, confirming the mean optic disc cup surface depth is expected to provide additional information to distinguish GLD from POAG patients.
Depression ; Glaucoma ; Glaucoma, Open-Angle ; Humans ; Optic Disk ; Tomography, Optical Coherence

PURPOSE: To report a case of masked glaucomatous optic nerve head damage due to acute swelling in a primary open-angle glaucoma patient. CASE SUMMARY: A healthy 21-year-old male visited our clinic complaining of blurred vision in the right eye for 1 week. The intraocular pressure (IOP) was 60 mmHg, as measured by a Goldmann applanation tonometer. No specific anterior segment finding other than severe corneal edema was found on slit lamp examination. Maximum tolerated medical therapy was performed, and a further examination was done 1 day after the IOP lowering. No glaucomatous change in the optic disc or retinal nerve fiber layer was observed on fundus examination and optical coherence tomography (OCT), but the optic disc of the right eye was more hyperemic than that of the left eye. A superonasal visual field defect was also observed using automated perimetry. After treatment, the IOP was kept within the normal range using IOP-lowering eye drops. However, an inferonasal retinal nerve fiber layer defect was observed on fundus examination and OCT, and a superonasal scotoma was detected by perimetry.
Corneal Edema ; Glaucoma, Open-Angle* ; Humans ; Intraocular Pressure ; Male ; Masks ; Nerve Fibers ; Ophthalmic Solutions ; Optic Disk* ; Optic Nerve* ; Reference Values ; Retinaldehyde ; Scotoma ; Slit Lamp ; Tomography, Optical Coherence ; Visual Field Tests ; Visual Fields ; Young Adult

PURPOSE: To investigate and compare the progression of medically treated primary open angle glaucoma according to the baseline intraocular pressure (IOP). METHODS: This study included a total of 345 eyes from 345 patients (mean follow-up period, 4.5 years). Eyes were classified into either conventional normal tension glaucoma (cNTG, < or =21 mmHg) or conventional high-tension glaucoma (cHTG, >21 mmHg) groups according to the conventional cut-off value of the IOP. Additionally, the median IOP (15 mmHg) was used to create two other groups (median NTG [mNTG] < or =15 mmHg and median HTG [mHTG] >15 mmHg). Using these values, 306, 39, 153, and 192 eyes were assigned to the cNTG, cHTG, mNTG, and mHTG groups, respectively. Glaucoma progression was determined either by optic disc/retinal nerve fiber layer photographs or serial visual field data. RESULTS: Mean reduction of IOP after medical treatment and of central corneal thickness was lower in the cNTG group, while the prevalence of disc hemorrhage and baseline visual field mean deviation did not differ between the cNTG and cHTG groups. A mean reduction in the IOP was observed after medical treatment, and central corneal thickness was lower in the mNTG group; disc hemorrhage was more frequent in the mNTG than in the mHTG group. Among the 345 analyzed eyes, 100 (29%) showed progression during the follow-up period. In the cHTG group, a higher baseline IOP (hazard ratio, 1.147; p = 0.024) was associated with glaucoma progression. Disc hemorrhage (hazard ratio, 15.533; p < 0.001) was also strongly associated with progression in the mNTG group. CONCLUSIONS: Baseline IOP was a significant risk factor for glaucoma progression in cHTG patients (10% of our total participants), while disc hemorrhage showed the strongest association with progression in the mNTG group, indicating that a cut-off value other than the conventional 21 mmHg is required to define true low-tension glaucoma in populations where NTG predominates among all glaucoma patients.
Aged ; Disease Progression ; Female ; Glaucoma, Open-Angle/*diagnosis ; Gonioscopy ; Humans ; Intraocular Pressure ; Low Tension Glaucoma/*diagnosis ; Male ; Middle Aged ; Nerve Fibers/pathology ; Optic Disk/pathology ; Optic Nerve Diseases/*diagnosis ; Photography/standards ; Retinal Ganglion Cells/pathology ; Retrospective Studies ; Tomography, Optical Coherence ; Tonometry, Ocular ; Vision Disorders/diagnosis ; Visual Field Tests/standards ; Visual Fields

PURPOSE: To investigate the retinal nerve fiber layer (RNFL) thickness concordance when measured by spectral domain (SD) and swept source (SS) optical coherence tomography (OCT), and to compare glaucoma-discriminating capability. METHODS: RNFL thicknesses were measured with the scan circle, centered on the optic nerve head, in 55 healthy, 41 glaucoma suspected, and 87 glaucomatous eyes. The RNFL thickness measured by the SD-OCT (sdRNFL thickness) and SS-OCT (ssRNFL thickness) were compared using the t-test. Bland-Altman analysis was performed to examine their agreement. We compared areas under the receiver operating characteristics curve and examined sdRNFL and ssRNFL thickness for discriminating glaucomatous eyes from healthy eyes, and from glaucoma suspect eyes. RESULTS: The average ssRNFL thickness was significantly greater than sdRNFL thickness in healthy (110.0 ± 7.9 vs. 100.1 ± 6.8 µm, p < 0.001), glaucoma suspect (96.8 ± 9.3 vs. 89.6 ± 7.9 µm, p < 0.001), and glaucomatous eyes (74.3 ± 14.2 vs. 69.1 ± 12.4 µm, p = 0.011). Bland-Altman analysis showed that there was a tendency for the difference between ssRNFL and sdRNFL to increase in eyes with thicker RNFL. The area under the curves of the average sdRNFL and ssRNFL thickness for discriminating glaucomatous eyes from healthy eyes (0.984 vs. 0.986, p = 0.491) and glaucoma suspect eyes (0.936 vs. 0.918, p = 0.132) were comparable. CONCLUSIONS: There was a tendency for ssRNFL thickness to increase, compared with sdRNFL thickness, in eyes with thicker RNFL. The ssRNFL thickness had comparable diagnostic capability compared with sdRNFL thickness for discriminating glaucomatous eyes from healthy eyes and glaucoma suspect eyes.
Glaucoma ; Nerve Fibers* ; Optic Disk ; Retinaldehyde* ; ROC Curve ; Tomography, Optical Coherence*

The development of optical coherence tomography (OCT) has changed the clinical management of ophthalmic diseases by furthering the understanding of pathogenesis, as well as improving the monitoring of their progression and assisting in quantifying the response to treatment modalities in ophthalmic diseases. Initially, the two-dimensional configuration of the optic nerve head (ONH) and the thickness of the retinal nerve fiber layer (RNFL) were the main OCT structural parameters used in clinical management of optic nerve diseases. Now, with higher resolution power and faster acquisition times, the details of ONH and the retina including the macular area can be measured using spectral domain OCT (SD-OCT) with high reproducibility and increased diagnostic ability. OCT can provide structural information to improve the understanding and management of optic nerve diseases. In this review, we will briefly summarize the clinical applications of SD-OCT in glaucoma and nonarteritic anterior ischemic optic neuropathy, which are two representative optic nerve diseases.
Glaucoma ; Nerve Fibers ; Optic Disk ; Optic Nerve Diseases ; Optic Neuropathy, Ischemic ; Retina ; Retinaldehyde ; Tomography, Optical Coherence

PURPOSE: To investigate the differences in retinal nerve fiber layer (RNFL) change and optic nerve head parameters between non-arteritic anterior ischemic optic neuropathy (NAION) and open angle glaucoma (OAG) with altitudinal visual field defect. METHODS: Seventeen NAION patients and 26 OAG patients were enrolled prospectively. The standard visual field indices (mean deviation, pattern standard deviation) were obtained from the Humphrey visual field test and differences between the two groups were analyzed. Cirrus HD-OCT parameters were used, including optic disc head analysis, average RNFL thickness, and RNFL thickness of each quadrant. RESULTS: The mean deviation and pattern standard deviation were not significantly different between the groups. In the affected eye, although the disc area was similar between the two groups (2.00 +/- 0.32 and 1.99 +/- 0.33 mm2, p = 0.586), the rim area of the OAG group was smaller than that of the NAION group (1.26 +/- 0.56 and 0.61 +/- 0.15 mm2, respectively, p < 0.001). RNFL asymmetry was not different between the two groups (p = 0.265), but the inferior RNFL thickness of both the affected and unaffected eyes were less in the OAG group than in the NAION group. In the analysis of optic disc morphology, both affected and unaffected eyes showed significant differences between two groups. CONCLUSIONS: To differentiate NAION from OAG in eyes with altitudinal visual field defects, optic disc head analysis of not only the affected eye, but also the unaffected eye, by using spectral domain optical coherence tomography may be helpful.
Aged ; Arteritis/diagnosis ; Diagnosis, Differential ; Female ; Glaucoma, Open-Angle/*diagnosis ; Humans ; Male ; Middle Aged ; Nerve Fibers/*pathology ; Optic Disk/*pathology ; Optic Neuropathy, Ischemic/*diagnosis ; Prospective Studies ; Retinal Ganglion Cells/*pathology ; Tomography, Optical Coherence ; Vision Disorders/*diagnosis ; Visual Field Tests ; *Visual Fields

PURPOSE: To investigate the characteristics of non-glaucomatous eyes with peripapillary retinoschisis. METHODS: Six non-glaucomatous eyes with peripapillary retinoschisis were enrolled. Age, sex, refractive error, intraocular pressure, location and changes of peripapillary retinoschisis, and the presence of accompanied abnormalities were assessed. To determine possible abnormalities of the optic nerve head and macula, fundus photographs and cross-sectional images of the optic nerve head and macula obtained by optical coherence tomography were inspected. RESULTS: Three males and 3 females were enrolled. Age of the subjects ranged from 11 to 59 years (median, 45 years). Refractive error ranged from -6.25 to +1.00 diopter (median, -0.50 diopter). Peripapillary retinoschisis was located in the superior quadrant in four eyes, in the nasal quadrant in one eye, and in the inferior quadrant in one eye, respectively. No additional abnormalities were found in fundus photographs or in the cross-sectional images of the optic nerve head and macula that were obtained by optical coherence tomography. Longitudinal follow-up was available for two eyes and spontaneous resolution of peripapillary retinoschisis was observed in these eyes 6 and 9 months later, respectively. CONCLUSIONS: Peripapillary retinoschisis was observed in non-glaucomatous eyes. This finding was observed in subjects of various ranges of age and refractive error, and in both sexes, without any other accompanying abnormalities.
Female ; Follow-Up Studies ; Glaucoma ; Humans ; Intraocular Pressure ; Male ; Optic Disk ; Refractive Errors ; Retinoschisis* ; Tomography, Optical Coherence