1.The Effect of Centrally Aligned Image Acquisition on the Reproducibility of Optic Nerve Head Topographic Parameters obtained with Heidelberg Retina Tomograph.
Woo Chul CHOI ; Ki Ho PARK ; Dong Myung KIM
Journal of the Korean Ophthalmological Society 1996;37(5):753-758
To compare the effect of centrally aligned image acquisitions with that of roughly centered image acquisitions on the reproducibility of topographic parameters obtained with the Heidelberg Retina Tomograph. three optic nerve head images were acquired sequentially by the rough centration of live image on the monitor, after then another three images sequentially by the central alignment in five healthy eyes of five subjects. For the centrally aligned image acquisitions, the contour of the frozen live optic nerve head image of each eye was copied into the transparent film. The images were acquired when the margin of live image fitted the contour line on the film. The reliability coefficients of the parameters ranged from 59.4% to 98.2% by the rough centration and 89.7% to 98.7% by the the central alignment. The results indicate that centrally aligned image acquisition provide highly reproducible topographic data of optic nerve head.
Optic Disk*
;
Optic Nerve*
;
Retina*
2.Peripapillary Granuloma with Optic Nerve Head Involvement Associated with Sarcoidosis
In Kwon CHUNG ; Jonghyun LEE ; Joo Youn SHIN
Korean Journal of Ophthalmology 2019;33(4):389-391
No abstract available.
Granuloma
;
Optic Disk
;
Optic Nerve
;
Sarcoidosis
3.The Normal Values of Optic Disc Parameters According to the Optic Disc Size.
Gae Rang KWON ; Changwon KEE ; Kyung Ja SHIN ; Myung Hee SHIN ; Byung Heon AHN
Journal of the Korean Ophthalmological Society 1998;39(6):1237-1243
We analysed the optic nerve head of 151 normal eyes with 8 confocal scanning laser ophthalmoscope (TopSSTM, Laser Diagnostic Technologies, Inc.), and obtained the normal values of each parameters. As the optic disc size increases, the cup shape, effective area, 1/2 depth area, C/D ratio, neuroretinal rim area, volume above, volume below, and 1/2 depth volume also increase. Therefore we obtained the normal values of these parameters according to the optic disc size. The entire subjects were divided into four groups according to the disc area, each group of 1. 5mm2-2.0mm2, 2.0mm2-2.5mm2, 2.5mm2-3.0mm2, and 3.0mm2-3.5mm2`, respectively. The normal values of other parameters such as contour variation, rnean contour depth, average depth, maximum depth, average slope, and maximum slope which are not affected by optic disc size were obtained without grouping. This may minimize the error in evaluating the optic disc parameters and may be useful in the early detection of glaucomatous optic disc changes.
Ophthalmoscopes
;
Optic Disk
;
Reference Values*
4.Medical Treatment of Glaucoma.
Journal of the Korean Medical Association 2005;48(2):189-196
No abstract available.
Glaucoma*
;
Optic Disk
;
Visual Fields
5.Bilateral Optic Disc Drusen Mimicking Papilledema.
Alparslan SAHIN ; Abdullah Kursat CINGU ; Seyhmus ARI ; Yasin CINAR ; Ihsan CACA
Journal of Clinical Neurology 2012;8(2):151-154
BACKGROUND: Optic disc drusen, which are calcified deposits that form anterior to the lamina cribrosa in the optic nerve, may mimic papilledema. CASE REPORT: We report herein three cases referred to us with suspicion of disc swelling and papilledema. Following ophthalmologic evaluation with B-scan ultrasound, red-free fundus photography, and computed tomography, the diagnosis of papilledema was excluded in all cases and optic disc drusen was diagnosed. CONCLUSIONS: Clinical suspicion of optic disc drusen in cases presenting with swelling of the optic nerve head is important in order to avoid unnecessary interventions and anxiety. The reported cases highlight the commonly encountered clinical presentations and the practical aspects of diagnosis and management of optic disc drusen.
Anxiety
;
Diagnosis, Differential
;
Hydrazines
;
Optic Disk
;
Optic Disk Drusen
;
Optic Nerve
;
Papilledema
;
Photography
6.Age-Related Differences of Spectral-Domain Optical Coherence Tomography Data in Koreans.
Ji Young SUH ; Hong Ryung SEO ; Sae Heun RHO
Journal of the Korean Ophthalmological Society 2013;54(2):289-295
PURPOSE: We evaluated the thickness of RNFL and optic nerve head parameters with age in normal eyes using Spectral-Domain Optical Coherence Tomography (SD-OCT). METHODS: A total of 128 normal Korean volunteers in different age groups were recruited (age range, 20-70 years). RESULTS: A significant negative correlation in average RNFL thickness with increasing age was found. The inferior areas (130.31 +/- 3.33 micrometer) were significantly thicker than other areas (superior area 119.05 +/- 2.12 micrometer, nasal area 71.80 +/- 0.57 micrometer, temporal area 77.72 +/- 0.16 micrometer). The average C/D ratios (mean 0.38 +/- 0.14) and vertical C/D ratios (mean 0.35 +/- 0.11) both showed significant increases with age, and the vertical C/D ratio correlation coefficient was higher (average C/D ratio r = 0.249, vertical C/D ratio r = 0.537). However, rim area, disc area, and cup volume were not correlated with age. CONCLUSIONS: From these findings, we conclude that, in normal Koreans, the mean RNFL thickness decreases and the C/D ratio increases with age, with the increase in the vertical C/D ratio being greater.
Eye
;
Humans
;
Optic Disk
;
Tomography, Optical Coherence
7.Classification of the Optic Disk Based on Branching of the Central Retinal Artery.
Jae Hee JUHNG ; Ho Won KIM ; Seong Deuk KIM ; Ouk CHOI
Journal of the Korean Ophthalmological Society 1976;17(3):275-279
The second phase of this study was performed with the same procedures as the first phase, and the study population was limited to young recruits in the Army. After examination of 1028 normal eyegrounds, it became apparent that there are several definite and easily recognizable variations in the distribution of the vessels as they emerge from the optic nerve head. The classification is made by dividing the surface of the nerve head into four quadrants, Le., tbe upper and lower nasal and the upper and lower temporal. Since there are four main branches of the retinal artery, namely, the superior and inferior temporal and tbe superior and inferior nasal, there are nine possible variation in the distribution of these vessels over the surface of the optic nerve head.
Classification*
;
Head
;
Optic Disk*
;
Retinal Artery*
8.Classification of the Optic Disk based on branching of the central retinal artery.
Tae Mo JEONG ; Joo Hwa LEE ; Seong Deuk KIM ; Ouk CHOI
Journal of the Korean Ophthalmological Society 1975;16(3):205-208
The first phase of this study was limited to the relation of the retinal arteries to the quadrants of the optic disk. After examination of hundreds of normal eyegrounds, it became apparent that there are several definite and easily recognizable variations in the distribution of the vessels as they emerge from the optic nerve head. The classification is made by dividing the surface of the nerve head into four quadrants, i.e., the upper and lower nasal and the upper and lower temporal. Since there are four main branches of the retinal artery, namely, the superior and inferior temporal and the superior and inferior nasal, there are nine possible variations in the distribution of these vessels over the surface of the optic nerve head.
Classification*
;
Head
;
Optic Disk*
;
Retinal Artery*
9.Diagnostic Availability of Blind Spot Mapping for Ocular Torsion.
Jae Hoon LEE ; Hae Ri YUM ; Se Youp LEE ; Young Chun LEE
Journal of the Korean Ophthalmological Society 2016;57(6):957-962
PURPOSE: To evaluate diagnostic the usefulness of blind spot mapping in measuring ocular torsion changes and to investigate the correlations of inferior oblique muscle overaction (IOOA) and excyclotorsion measurements using fundus photographs and blind spot mapping in patients with secondary IOOA. METHODS: Eleven patients (12 eyes; IOOA group) diagnosed with secondary IOOA were evaluated for ocular movement, fundus photograph and Humphrey standard automated perimetry, and 10 patients (20 eyes; control group) were subjected to the same tests. An ocular movement examination was performed to evaluate IOOA, and fundus photograph and Humphrey standard automated perimetry were used to measure the ocular torsion. Inferior oblique myectomy or recession was performed along with horizontal strabismus surgery, and preoperative and postoperative IOOA and ocular torsion measurements were compared between the groups. RESULTS: In the IOOA group after surgery, the IOOA decreased from +2.42 ± 0.63 to +0.50 ± 0.52, the ocular torsion decreased from +14.15 ± 3.60° to +7.47 ± 1.65° (p < 0.001) on fundus photographs, and from +12.19 ± 1.62° to +9.69 ± 1.75° (p = 0.061) in Humphrey standard automated perimetry. The control group showed a mean ocular torsion of 7.44 ± 1.62° on fundus photographs and +7.24 ± 1.28° on Humphrey standard automated perimetry. CONCLUSIONS: The usefulness of blind spot mapping when the ocular torsion was measured in IOOA patients was considered low, due to the weak correlation between IOOA and extorsion; preoperative and postoperative ocular torsion amount values were not significantly different.
Humans
;
Optic Disk*
;
Strabismus
;
Visual Field Tests
10.Pattern of Glaucomatous Optic Disc Damage in Primary Open-Angle Glaucoma.
Joon Hyun KIM ; Chang Eun BAEK ; Yoon Koo AHN ; Ki Bang UHM ; Chul HONG
Journal of the Korean Ophthalmological Society 1997;38(6):1037-1043
To identify the pattern of glaucomatous changes of the optic disc, the rim area to disc area ratio (RA/DA ratio) of 149 eyes (149 cases) with primary open-angle glaucoma (POAG) were measured and compared with that of 88 eyes (88 cases) of normal individuals. At all stages of the disease, glaucomatous rim loss was present in all sectors of the optic disc. The location of the most pronounced rim loss changed depending on the severity of the disease. In the early (RA/DA ratio > 61%; mean deviation(MD): -6.43+/-3.32dB) and medium (RA/DA ratio=41~60%; MD: -7.54+/-5.65dB) glaucoma subgroups, rim loss was found predominantly at the inferior temporal and superior temporal disc region. In the advanced glaucoma subgroup (RA/DA ratio=40~21%; MD: -18.27+/-8.40dB), the temporal horizontal disc region showed relatively marked rim loss. In the far advanced glaucoma subgroup (RA/DA ratio=20~0%; MD: -25.91+/-5.40dB), the rim remnants were located mainly in the nasal disc sector, with a larger rim portion in the upper nasal region than in the lower nasal region. These results indicate that generally in POAG, the loss of neuroretinal rim was found to start predominantly in the inferior temporal and superior temporal disc region, and then the temporal horizontal, the inferior nasal, and the superior nasal disc sectors followed.
Glaucoma
;
Glaucoma, Open-Angle*
;
Optic Disk