Objective:To observe the changes of the thickness of reti nal nerve fiber layer (RNFL) of optic disc in rats with chronic glaucoma continuously dete cted by optic coherence tomography (OCT). Methods:A total of 48 Wist ar rats (24 males and 24 females) were randomly divided into 3 groups with 16 ra ts (32 eyes) in each group. The right eyes were the photocoagulation eyes and the left ones were as the control. Laser photocoagulation with the wavelength of 532 nm was perfo rmed on the trabecular network of the right eyes to induce the chronic middlelevel oc u lar hypertension. The changes of the intraocular pressure (IOP) were observed. O pticdisc linear scanning of OCT was performed 3, 6, and 9 weeks after IOP incr e ased, and the thickness of RNFL of optic disc was detected by the computer. Eight rats in each group were killed and retinal histology slic es were used to detect the thickness of RNFL. The flatmount s of retina from the right eyes of the other 8 rats in each group were stai ned by 1% toluidine blue. The density of retinal ganglion cells (RGC) was calcul ated and the results were compared and analyzed. Results:IOP o f the rats increas ed chronically and moderately after photocoagulation. IOP of the experimental ey e 3,6, and 9 weeks after photocoagulation was obviously higher than which of the control eyes, respectively (P<0.001). The results of OCT showed that the thickness of the RNFL of the experimental eyes was (67.39plusmn;5.91) mu;m, (53.4 2plusmn;5.64) mu;m,and (44.35plusmn;5.76) mu;m 3, 6, and 9 weeks after photocoagulation, and the corresponding thickness in the control eyes was(80.32plusmn;5.87), (79.69plusmn;5.69), and (80.78plusmn;5.84)mu;m, respectively. The thickness of the retinal fiber layer detecte d by histological method was (64.38plusmn;6.54), (51.47plusmn;6.4), and (42.10 plusmn;6.10)mu;m in the experimental eyes 3, 6, and 9 weeks after photocoagulation, and (76.23plusmn;6.78), (78.64plusmn;6.15), and (77.64plusmn;6.63) mu;m in the control eyes. Regression analysis of the thickness detected by the two methods was made, and the regression coefficients was 0.932(P<0.001).The differ ence of the ave rage density of RGC between the two groups was significant (P<0.05). Conclusi on:Glaucoma model in Wistar rats may successfully set up b y photocoagulating the trabecular meshwork. The thickness of retinal nerve fiber layer of the optic disc in rats with chronic glaucoma detected by OCT and obser ved by the light m icroscope is accordant. The changes of the thickness of RNFL in rats with chroni c glaucoma could be continuously detected by OCT to investigate the progress of the glaucomatic retinopathy in rat model.
Objective To evaluate the changes of optic nerve head (ONH) and the thickness of peripapillary retinal nerve fiber layer (RNFL) in patients with non-arteritic anterior ischemic optic neuropathy (NAION) using optical coherence tomography (OCT). Methods Circular and cross-sectional OCT scans of an area with a diameter of 3.38 mm surrounding the optic disc were performed for 108 eyes (96 cases) with NAION, including 96 eyes (96 cases) in acute edema phase and 41 eyes (37 cases) in resolving phase. Follow-up period was 2 weeks to 24 months, with an average of 6 months. Results The RNFL was thickener with shallow cup or small cups in the acute edema phase. Comparing with the RNFL in the ischemic sector, the thickness of peripapillary RNFL in the nonischemic sector was greater in 59 eyes (59 cases, 61%), lesser in 26 eyes (26 cases, 27%) and no difference in 11 eyes (11 cases, 12%). During the treatment NAION eyes were dynamically observed by OCT. While ischemic edema of the optic disc resolved in about two weeks, non-ischemic edema subsided in 3-6 weeks. After 1 month in the resolving phase, the thickness of peripapillary RNFL in the ischemic sector of 35 cases (95%) was thinner than the thickness of non-ischemic sector and fellow normal controls. After 3 month in the resolving phase, 26 cases (70%) showed thinner RNFL of whole optic disc. Conclusion The thickness of RNFL in NAION patients in acute edema phase is thicker than that in the fellow normal eyes, and is also thicker in ischemic sector than that in non-ischemic sector. In resolving phase, the thickness of RNFL is thinner in NAION eyes than that in the fellow normal eyes.
ObjectiveTo observe the changes of peripapillary vessel density and retinal nerve fiber layer parameters (RNFL) in diabetic mellitus (DM) patients with early diabetic retinopathy (DR).MethodsA retrospective clinical study. From January to December 2018, twenty-eight DM patients (47 eyes, DM group) and 20 normal subjects (40 eyes, control group) in Eye Hospital of Wenzhou Medical University at Hangzhou were included in the study. There was no significant difference between the two groups in age (t=-1.397, P=0.169) and sex composition ratio (χ2=0.039, P=0.843). The optic nerve head was scanned by OCT angiography (OCTA) with HD 4.5 mm ×4.5 mm imaging scanning mode for all subjects. The peripapillary radial peripapillary capillaries vessel density (ppVD) and peripapillary retinal nerve fiber layer (pRNFL) thickness were measured. The changes of ppVD and pRNFL thickness between the two groups were observed. Pearson correlation analysis was used to analyze the correlation between ppVD and pRNFL in each quadrant.ResultsCompared with the control group, the mean ppVD and superior-hemi part, inferior-hemi part, superior, nasal, inferior and temporal quadrant ppVDs of DM group were all significantly lower than those of control group (t=5.107, 4.360, 3.713, 4.007, 2.806, 4.046, 2.214; P<0.05). The mean and all quadrants pRNFL thickness were lower in eyes of DM group compared with the control, and the superior and inferior quadrant pRNFL thickness were statistically significant (t=2.117, 2.349; P<0.05), while the mean pRNFL and superior-hemi, inferior-hemi part, nasal and temporal quadrant were not statistically significant (t=1.867, 1.717, 1.869, 0.720, 0.303; P>0.05). Pearson correlation analysis showed that the significant high-positive correlation was found between ppVD and pRNFL thickness in the nasal quadrant (r=0.734, P<0.001).ConclusionIn early DR patients, ppVD decreased and pRNFL thinned.
ObjectiveTo observe the differences of horizontal optic disc diameter and cup/disc (C/D) ratio in eyes with different kinds of retinal vein occlusion (RVO). MethodsA total of 392 eyes from 385 RVO patients diagnosed by fundus fluorescein angiography (FFA) were included in this study. The patients included 192 males and 193 females. The average age was (58.30±11.51) years. The disease duration was from 7 days to 1 month. The eyes were divided into RVO group (356 eyes), RVO combining diabetes mellitus (DM) group (20 eyes) and RVO combining high blood pressure (HP) group (16 eyes). One hundred normal eyes examined by FFA in the same testing period were selected as the control group. Among the 356 eyes in the RVO group, there were 201 eyes with branch RVO (BRVO), 100 eyes with central RVO (CRVO), 17 eyes with hemi CRVO (H-CRVO), and 38 eyes with macular BRVO (M-BRVO). Among the 101 non-ischemic RVO eyes, there were 17 eyes with BRVO, 53 eyes with CRVO, 6 eyes with H-CRVO, and 25 eyes with M-BRVO. Among the 255 ischemic RVO eyes, there were 184 eyes with BRVO, 47 eyes with CRVO, 11 eyes with H-CRVO and 13 eyes with M-BRVO. The diameter of optic cup and disk, and the C/D ratio was measured on fundus infrared radiation (IR) IR30°image by Heidelberg confocal laser fundus imaging system. ResultsThere was no significant difference of horizontal optic disc diameter among 4 groups (F=1.17, P>0.05). The difference of C/D ratio was significant among 4 groups (F=82.24, P<0.05). The differences of horizontal optic disc diameter and C/D ratio in different kinds of RVO in normal group and RVO group were significant (F=4.49, 61.396; P<0.05). The horizontal optic disc diameter of eyes with CRVO was a little smaller than normal eyes (P<0.05). There was no difference of horizontal optic disc diameter between the eyes with BRVO, M-BRVO, H-CRVO and normal eyes (P>0.05). The difference of C/D ratio was significant between the eyes with BRVO, CRVO, M-BRVO, H-CRVO and normal eyes (P<0.05). The differences of horizontal optic disc diameter and C/D ratio were significant between RVO group (in different kinds of RVO eyes) and control group (F=3.94, 33.16; P<0.05). Compared the horizontal optic disc diameters of RVO eyes with the same subtype, the difference was significant between non-ischemic H-CRVO and ischemic H-CRVO (P<0.05), while the differences were not significant between other non-ischemic RVO and ischemic CRVO (BRVO:P=0.35,CRVO:P=0.86,M-BRVO:P=0.22). The difference of C/D ratio between non-ischemic RVO and ischemic CRVO was not significant (BRVO:P=0.35,CRVO:P=0.48,H-CRVO:P=1.00,M-BRVO:P=1.00). ConclusionsThe C/D ratio increased with varying degrees in RVO eyes. There is no obvious change in horizontal optic disc diameters except for CRVO eyes.
PURPOSE:To discuss the clinical characteristics and differential diagnosis of peripapillary subretinal hemorrhage(PPSRH). METHOD:Retrospective analysis of the clinical documents including mainly the ocular manifestations and the findings of fundus fluorescein angiography(FFA)of 37 patients (38 eyes)with PPSRH. RESULTS:In all of these 37 patients,36 were myopes, 31 were young persons ,the average age was 21 years old,and 36 were affected unilaterally. The subretinal hemorrhage revealed itself in 4 types :PPSRH (5 eyes),PPSRH with disc iaemorrhage (21 eyes),PPSRH with vitreous hemorrhage (2 eyes), and PPSRH with disc hemorrhage and vitreous hemorrhage (10 eyes). In the FFA, the hemorrhages showed blocked fluorescence and the optic discs showed irregular hyperfluorescence at the late phase. All of the hemorrhages were absorbed within 3 weeks to 3 months without any treatment. CONCLUSIONS:According to the manifestation of the optic discs in FFA PPSRH might be complicatton of the buried optic disc drusen. (Chin J Ocul Fundus Dis,1997,13: 143-145 )
ObjectiveTo evaluate the clinical features and follow-up effect of treatment for retinal capillary hemangioma (RCH) of myopic disc.MethodsRetrospective case series studies. A total of 14 patients (15 eyes) diagnosed with juxtapapillary RCH (JRCH) at Peking Union Medical College Hospital and followed up for more than 12 months from January 2007 to December 2019 were included. Among these patients, there were 7 males (7 eyes) and 7 females (8 eyes) with the average age of 29.8 ±12.7 years. There were 6 isolated JRCH cases, all of which were monocular patients, including 1 case with a single peripheral RCH; 8 cases with von Hippel-Lindau disease, including 5 cases of binocular RCH. Out of 15 eyes, 6 eyes were merged with peripheral RCH. Three eyes were simply observed, and 12 eyes were treated with photodynamic therapy (PDT) alone or PDT combined with other treatments. The average follow-up time was 55.2 months. Its clinical characteristics and long-term treatment effects were analyzed.ResultsAt the first visit, among the 15 eyes, 3 eyes had visual acuity<0.1, 5 eyes were 0.1-0.4, and 7 eyes were>0.5. The endogenous and fixed exogenous JRCH were 12 (80%, 12/15) and 3 (20%, 3/15) eyes, respectively. The size of the tumor was 1/4 to 4 optic disc diameters (DD); the combined macular edema, epiretinal membrane, and macular hole were 11, 5, and 1 eyes, respectively. There were 3 eyes with tumor diameter less than 1 DD. The visual acuity at the first diagnosis was 0.6-1.0, and no treatment was given. The follow-up time was 12 months in 2 eyes and 120 months in 1 eye. At the last follow-up, his vision remained stable and the tumor did not enlarge. Six eyes with tumor diameter ranging from 1.0 to 2.5 DD, visual acuity was 0.06 to 0.6 at first diagnosis, accompanied by retinal exudation. 5 eyes were treated with PDT alone, and 1 eye was treated with PDT combined with anti-vascular endothelial growth factor drugs. The follow-up time was 12 to 84 months. At the last follow-up, the visual acuity improved or stabilized in 5 eyes and decreased in 1 eye. There were 6 eyes with peripheral RCH, including 4 eyes with retinal detachment, 2 eyes with epiretinal membrane, and 1 eye with vitreous hemorrhage. The visual acuity at the first visit was 0.02-0.6. All patients were treated with PDT combined with transpupillary thermotherapy, extrascleral drainage, and vitrectomy. The follow-up time was 12 to 132 months. At the last follow-up, all eyesight decreased.ConclusionsVisual decrease cause by JRCH often occurs at young adults. Bilateral JRCH are more common in patients with von Hippel-Lindau's disease. The tumor can cause retinal exudation, macular edema, epiretinal membrane and macular hole, resulting in gradual vision loss. PDT and/or combined anti-vascular endothelial growth factor drugs for medium sized JRCH with retinal exudation can maintain long-term vision stability. Patients with large JRCH or severe complications such as retinal detachment tend to have poor prognosis.
Objective To determine the long-term changes in optic disc parameter and the thickness of circumpapillary retinal nerve fiber layer (CP-RNFL) and macular retina after acute primary angle closure. Methods Prospective clinical case-control study. A total of 26 patients (30 eyes) with acute primary angle-closure glaucoma (APACG) were in the APACG group, whose intraocular pressure were control after a single episode acute primary angle closure; 30 age-and sex-matched healthy subjects (30 eyes) in the control group. All subjects underwent three dimensional optical coherence tomography (3D-OCT) examination with 3D optic disk scanning or circle optic disk scanning and 6 mm×6 mm macular scanning. The parameters included average thickness of entire CP-RNFL, thickness of nasal, superior, temporal and inferior quadrant of CP-RNFL, disc area, disc cup area, rim area, cup/disc (C/D) area ratio, C/D horizontal diameter ratio and C/D vertical diameter ratio. The foveal retinal thickness, center retinal thickness (≤1 mm from the fovea), 4 quadrants of macular inner-ring ( > 1 mm but≤3 mm from the fovea) retinal thickness, 4 quadrants of macular outer-ring ( > 3 mm but≤6 mm from the fovea) retinal thickness, average thickness of macular retinal thickness and macular volume were measured and analyzed. Results The disc area, disc cup area, C/D area ratio, C/D horizontal diameter ratio and C/D vertical diameter ratio in APACG group were significantly bigger than the control group (t=3.22, 4.12, 3.90, 3.00, 3.23; P < 0.05), rim area was smaller than the control group (t=-2.63, P < 0.05). The average thickness (t=-6.68) and the thickness of superior (t=-5.90), temporal (t=-11.64) and inferior (t=-5.06) quadrants of CP-RNFL, center retinal thickness (t=-2.50), 4 quadrants of macular inner-ring retinal thickness (t=-4.91, -4.88, -2.83, -3.59), nasal (t=-2.13) and superior (t=-2.49) quadrants of macular outer-ring retinal thickness as well as average thickness of macular retinal thickness (t=-2.65) were significantly thinner than the control group (P < 0.05), and the macular volume (t=-2.69) was significantly smaller than the control group (P < 0.05). There was no statistically difference at nasal CP-RNFL (t=-0.11), foveal retinal thickness (t=-0.59), temporal (t=-0.67) and inferior (t=-1.02) quadrants of macular outer-ring retinal thickness between two groups (P > 0.05). Conclusions In comparison with the healthy subjects, the disc area, disc cup area, C/D area ratio, C/D horizontal diameter ratio, C/D vertical diameter ratio in APACG eyes were bigger, while rim area was smaller; the CP-RNFL and macular retinal thickness were thinner except nasal CP-RNFL, fovea, temporal and inferior quadrants of macular outer-ring retinal.
Non-arteritic ischemic optic neuropathy (NAION) is a neurological disease due to poor perfusion in optic disk. It causes severe visual function impairment, characterized by loss of vision and visual field defect. Optical coherence tomography (OCT) is vital for detecting anterior laminar depth, peripapillary?nerve?fiber layer thickness, ganglion cell complex thickness and peripapillary choroid thickness change in eyes with NAION at different course of the disease. In addition, OCT features are in accordance with visual function impairment. OCT angiography (OCTA) reveals retinal and choroidal vasculature networks in optic and macular area. OCTA revealed vasculature perfusion decline in eyes with NAION, even if their visual sensitivity and visual evoked potential were normal. Studying OCT and OCTA features is vital for exploring the pathogenesis and prognosis of NAION.
ObjectiveTo evaluate the effect of form deprivation myopia on optic nerve head and retinal morphology in guinea pigs using optical coherence tomography (OCT). MethodsTwenty guinea pigs aged from 4 to 5 weeks were chosen and randomly divided into the experimental group and control group, with 10 guinea pigs in each group. Form deprivation myopia was established for the right eyes of guinea pigs in experimental group for 4 weeks. The guinea pigs of control group were not intervened. Before and 4 weeks after form deprivation, refraction was measured by retinoscopy after cycloplegia; the axial length was measured by A-scan ultrasound; retinal nerve fiber layer (RNFL) thickness, optic nerve head and retinal morphology of guinea pigs were analyzed using OCT. ResultsBefore form deprivation, there were no statistically significant differences in spherical equivalent, axial length, RNFL thickness, disc edge area, optic disc area, average cup disc ratio, vertical cup disc ratio, cup volume, retinal thickness, or retinal volume between the experimental group and control group of guinea pig (P > 0.05). After 4 weeks of form deprivation, RNFL thickness of (64.9±17.7) μm in guinea pigs in experimental group was thinner compared to (97.9±25.1) μm in control group (t=-2.845, P=0.015). Retinal thickness of (142.7±3.4) μm in guinea pigs in experimental group was thicker compared to (138.4±3.5) μm in control group (t=2.338, P=0.038). There were no significant differences in disc edge area, optic disc area, average cup disc ratio, vertical cup disc ratio, cup volume or retinal volume between groups (P > 0.05). There were statistically significant differences in spherical equivalent, axial length, RNFL thickness, vertical cup to disc ratio cup volume, and retinal thickness between after and before form deprivation in the right eye of guinea pigs in the experimental groups (t=46.001, -50.119, 5.385, 3.447, -2.814, -8.911; P < 0.05), while there were no statistically significant differences in disc edge area, optic disc area, average cup disc ratio, or retinal volume (P > 0.05). ConclusionForm deprivation myopia has an effect on RNFL and retinal thickness.
ObjectiveTo observe the changes of optic disc structure and retinal nerve fiber layer thickness (RNFL) in patients with different degrees of Parkinson's disease (PD).MethodsThirty eyes of 30 patients with primary PD and 20 eyes of 20 healthy subjects (control group) in Xuanwu Hospital of Capital Medical University from October 2016 to October 2017 were enrolled in this study. The patients were divided into mild to moderate PD group (15 eyes of 15 patients) and severe PD group (15 eyes of 15 patients). All the patients underwent OCT examination. The optic disc area, cup area, C/D area ratio, rim volume, disc volume, cup volume, rim area, C/D area, linear C/D, vertical C/D, the thickness of average RNFL, superior, inferior, temporal upper (TU), superior temporal (ST), superior nasal (SN), nasal upper (NU), nasal lower (NL), inferior nasal (IN), inferior temporal (IT), temporal lower (TL) quadrant RNFL thickness. Analysis of variance was performed for comparison among three groups. Minimum significant difference t test was performed for comparison between two groups.ResultsOptic disc structure parameters: there was no significant difference in the area of optic disc between the three groups (F=1.226, P>0.05). The other optic disc parameters were significantly different in the three groups (F=5.221, 5.586, 6.302, 5.926, 5.319, 5.404, 5.861, 6.603; P<0.05). The cup area, cup volume, C/D area, linear C/D, vertical C/D of the mild to moderate PD group and severe PD group were higher than that of the control group (P<0.05). The cup area, cup volume, C/D area, linear C/D, vertical C/D of the severe PD group were higher than those of mild to moderate PD group (P<0.05), the rim area, rim volume and disc volume of the severe PD group were smaller than that of mild to moderate PD group (P<0.05). The thickness of RNFL: there was no significant difference between the three groups of ST, SN, NU and NL (F=3.586, 2.852, 2.961, 2.404; P>0.05). The average thickness of RNFL, TU, IN, IT and TL in patients of the mild to moderate PD group and severe PD group were less than that in the control group (P<0.05). The thickness of the average RNFL, TU, IN, IT and TL in patients of the severe PD group were less than that in the mild to moderate PD group (P<0.05). With the increase of PD severity, the RNFL of TL and TU thinned most significantly.ConclusionsWith the increase of the severity of PD, the optic disc structure and RNFL thickness changes obviously, showing reduced optic disc area and volume, enlarged cup area and volume significantly enlarged C/D ratio. The average RNFL thickness of PD patients is significantly thinner than that of the controls, and it is the most obvious in the TU and TL quadrant.