Objective To compare the macular imaging and measurements of patients with idiopathic epiretinal membranes (ERM) by stratus optical coherence tomography (OCT) and two different types of spectral-domain OCT. Methods Forty-six consecutive patients (46 eyes) diagnosed as idiopathic ERM in the period of August 2008 to October 2008 were enrolled in this study. The patients included 11 males and 35 females, with a mean age of (61.04plusmn;10.13) years. Twenty-one age- and sex- matched normal subjects (21 eyes) were enrolled in this study as control group. All the subjects underwent stratus OCT, cirrus OCT and 3D OCT-1000 examinations. The macular area was divided into three concentric circles which including central region with 1 mm diameter, inner area with >1 mm but le;3 mm diameter, and outer ring area with >3 mm but le;6 mm diameter. The inner area and outer ring area were divided into superior, nasal, inferior and temporal quadrants by two radioactive rays. The characteristics of OCT images and the quantitative measurements were compared among these three machines. The macular thickness of ERM group and control group was also compared. And the correlation of visual acuity and the macular thickness in idiopathic ERM patients was evaluated. Results The increased macular retinal thickness, disorder structure of inner retina, uneven surface and proliferative inner and outer plexiform layer were observed in ERM group by stratus and spectral-domain OCT. But the minor pathological changes on inner retina structure and internal surface proliferation could be observed more clearly by spectral-domain OCT than those by stratus OCT.The macular thicknesses of all the subjects measured by Cirrus OCT and 3D OCT-1000 were thicker than those measured by Stratus OCT (t=7.445-11.253,P=0.000). The correlations of measurements between three OCTs were good (r>0.9). The flatted or disappeared fovea of ERM patient group was observed by all three OCTs. The macular thicknesses on different subfields of patients in ERM group were thicker than those in control group, especially in the 1-3 mm inner ring (t=2.477-10.139,P<0.05). Moderate negative correlations were shown on the macular thickness and visual acuity in ERM group (r=-0.216-0.517). Conclusions Spectral domain OCT yields better visualization of the intraretinal layers than time domain OCT. The images in spectral domain OCT are more clear and fine compared to stratus OCT. Stratus OCT correlates with spectral domain OCT, but they are different, and cannot be replaced by each other.
Objective To study the visual field defects and its correlation factors in nonarteritic anterior ischemic optic neuropathy (NAION). Methods One hundred and thirty-nine patients of NAION with complete visual field examination results were included in this study. There were 65 males (46.7%)and 74 females (53.3%),with an average age of (56.2plusmn;10.8) years. All the patients had undergone the examinations of visual acuity,refraction,refractive media, slit lamp ophthalmoscope, color fundus photography, visual field, blood pressure, blood routine test and blood biochemistry test. Fundus fluorescein angiography (FFA) was carried out in 125 patients. The visual field characteristics and its correlation factors were statistically analyzed, and the FFA and visual field results of 77 eyes were comparatively analyzed. Results The visual field examination showed typical inferior defect in 48 eyes (34.5%), arcuate scotoma in 24 eyes (17.3%), atypical arcuate scotoma in 24 eyes (17.3%), defuse defect in 20 eyes (14.4%), superior defect in 10 eyes (7.2%), superior defect with inferior arcuate scotoma in five eyes (3.6%), inferior defect with superior arcuate scotoma in eight eyes (5.8%). The mean defect (MD)value ranged from -3.0 to -32.0,with an average of -17.9plusmn;7.9. Among 77 eyes with FFA data, the FFA and visual field defect area were highly consistent seven eyes (9.1%), consistent in 26 eyes (33.8%), some kind of consistent in 39 eyes (50.6%), completely inconsistent in five eyes (6.5%). Multiple lineal regression analysis showed that mean red cell volume (MCV) (beta;=0.203,t=2.005) and cholesterol level (CHOL) (beta;=0230,t=2.244) were correlation factors of MD (P<0.05). Conclusion The visual field defect of NAION shows a variety of patterns which may be mainly influenced by MCV and CHOL.
Objective To compare difference of the cross-sectional pathological imaging and quantitative measurement of central serous chorioretinopathy (CSC) between time- and fourier-domain optical coherence tomography (OCT). Methods Consecutive 26 patients (26 eyes) with unilaterial CSC were subsumed. Bilateral eyes of all the patients underwent time- and fourier-domain OCT. Horizontal and vertical line scanning and radial six-line scanning protocols were used for timedomain OCT examination; horizontal and vertical high resolution five-line scanning and macular cube scanning protocols were used for fourier-domain OCT examination. The characteristics of OCT images, retinal segmentation and the quantitative measurement were compared between these two methods. Results Fourier-domain OCT could yield the three-dimensional images of surface of inner limiting membrane (ILM) and RPE. The band of external limiting membrane (ELM) of normal subjects and CSC patients, and the inner segment and outer segment (IS/OS) of normal subjects could be clearly shown by fourier-domain OCT. However, the band of IS/OS disappeared in 65.4% of the CSC patients. The outer boundary of retina was defined in front of the retinal pigmental epithelia (RPE) by fourier-domain OCT. The foveal thickness of normal subjects and CSC patients was (180.50plusmn;12.69) and (158.41plusmn;34.20) mu;m, respevtively. The height of detachment of neural epithelial layer was (245.84plusmn;154.61) mu;m measured by fourier-domain OCT. The band of IS/OS of normal subjects could be clearly shown by time-domain OCT. However, the band of IS/OS disappeared in 73.4% of the CSC patients, which showed no difference with fourier-domain OCT (Z=-0.108, P=0.914). The outer boundary of retina was defined in front of the IS/OS band by OCT. The foveal thickness of normal subjects was (141.16plusmn;12.75) mu;m, which was thinner than that measured by fourier-domain OCT (t=20.671,P=0.000). The foveal thickness and the height of detachment of neural epithelial layer was (146.40plusmn;36.28) mu;m and (240.32plusmn;156.82) mu;m measured by time-domain OCT, respectively, which showed no significant difference with which measured by fourier-domain OCT (t value was from 0.026 to 1.517, P value was from 0.144 to 0.980). Conclusions Fourier-domain OCT yields better visualization of intraretinal layers and more accurate definition of outer boundary of retina than time-domain OCT. Thus the measurements by fourier-domain OCT were more accurate. Moreover, three-dimensional images of CSC shown by fourier-domain OCT enable the comprehensive observation of pathological morphology and location.
Objective To observe the effects of local macular foveal photoreceptor defects on visual acuity.Methods Thirty-one patients (31 eyes) with photoreceptor defect in macular fovea (case group) diagnosed by spectral domain optical coherence tomography (SD-OCT) and 30 patients (30 eyes) age- and diopter- matched normal subjects (control group) were enrolled in this study. There were 22 eyes with full photoreceptor defects and 9 eyes with outer segment defects in case group. All subjects were examined for best corrected visual acuity (BCVA), slit-lamp microscopy, direct ophthalmoscope and SD-OCT. Independent sample t-test was used to compare central foveal thickness (CFT) between case group and control group. Difference of logMAR BCVA, CFT, maximum width and height of photoreceptor defects, defected area and residual retinal thickness in macular between patients with full photoreceptor defects and outer segment defects were also compared.Results The CFT of case group and control group were (225.32plusmn;19.70),(240.02plusmn;10.70) mu;m, the difference was not statistically significant (t=-1.96, P>0.05). In full photoreceptor defects and outer segment defects patients, the mean logMAR BCVA were 0.22plusmn;0.31, 0.32plusmn;0.43; the mean CFT were (224.09plusmn;20.57), (228.33plusmn;18.17) mu;m; the maximum width of photoreceptor defects were (131.32plusmn;108.18), (143.22plusmn;66.93) mu;m; the mean defected area were (0.022plusmn;0.054), (0.019plusmn;0.019) mm2; the mean maximum height of photoreceptor defects were (77.41plusmn;6.62), (44.89plusmn;4.26) mu;m; the mean residual retinal thickness were (87.00plusmn;20.31), (128.33plusmn;23.54) mu;m respectively. There was no statistical significance between full photoreceptor defects and outer segment defects patients in the mean logMAR BCVA, CFT, maximum width of photoreceptor defects and defected area (t=-0.76, -0.538, -0.305, 0.166; P>0.05), but there were significant difference in mean maximum width of photoreceptor defects and residual retinal thickness (t=12.72, -4.91;P<0.05). Conclusions The local photoreceptor defects in macular fovea can lead to decrease of visual acuity. The wider the photoreceptor defects, the worse the visual acuity.
ObjectiveTo observe the morphologic characteristics of drusen in atrophic age-related macular degeneration (AMD) by spectral domain optical coherence tomography (SD-OCT). MethodsFifty-four patients (84 eyes) with macular drusen and atrophic AMD, and 56 age-matched control patients (56 eyes) with cataract were included in this study. Atrophic AMD patients were divided into two groups: D1 group with drusen involving the fovea (42 eyes) and D2 group with drusen not involving the fovea (42 eyes). The SD-OCT images in macular (6 mm×6 mm scans) were acquired, and the foveal retinal thickness (FRT) was measured. The size, morphology, inner reflection, homogeneity of drusen and its relationship with surrounding tissues were analyzed. ResultsThe FRT of D1 group, D2 group and control group were (160.90±38.47), (194.21±26.11), (222.42±19.29) μm respectively. The FRT of D1 group and D2 group were thinner than that of control group (F=57.08, P=0.00). Totally 1124 drusen were found by SD-OCT images in 84 eyes, with an average of 10.84 drusen in each eye. 3.0%, 12.5% and 84.5% of all 1124 drusen were small, medium and large sized respectively. 56.6%, 14.2%, 20.4% and 8.8% of all drusen were dome, pointed, saw-toothed and basal-shaped respectively. 17.1%, 57.5% and 25.4% of all drusen had low, medium and high internal reflectivity respectively. The internal reflectivity of 65.6%, 2.8% and 31.7% of all drusen were homogeneous, nonhomogeneous with core, and nonhomogeneous without core respectively. Overlying retinal pigment epithelium (RPE) damage and photoreceptor inner segment/outer segment (IS/OS) junction damage were presented in 34.5% and 24.8% drusen respectively. The most common type of drusen was dome-shape, homogeneous, with medium internal reflectivity, and without overlying RPE or IS/OS junction damage (81.0%). ConclusionsThe FRT becomes thinner in patients with drusen. The most common drusen types are dome-shaped, homogeneous, with medium internal reflectivity, and without overlying RPE or IS/OS junction damage.
ObjectiveTo evaluate the repeatability and reproducibility of macular ganglion cell-inner plexiform layer (GCIPL) thickness measurement using spectral-domain optical coherence tomography (Cirrus HD-OCT). MethodOne hundred and eight eyes of 54 normal subjects (26 males and 28 females) between 19 and 75 years of age were included. Each eye underwent macular scanning using Cirrus HD-OCT Macular Cube 512×128 protocol by two operators. Three scans of each eye were obtained by each operator. For the right eye of each subject, three extra scans were obtained using Macular Cube 200×200 protocol by one operator. The average, minimum, superotemporal, superior, superonasal, inferonasal, inferior, and inferotemporal GCIPL thickness was analyzed and the repeatability of GCIPL thickness measurement was evaluated with intra-operator, inter-operator, intra-protocol, and inter-protocol intraclass correlation coefficients (ICC). Ten extra scans were obtained from the left eyes of 10 randomly selected subjects for reproducibility assessment with coefficients of variation (CV). ResultsThe intra-operator ICC of macular GCIPL measurement using Macular Cube 512×128 protocol by two operators were 0.959-0.995 and 0.954-0.997, respectively; and the inter-operator ICC were 0.944-0.993. All intra-and inter-operator ICC were > 0.800 with the highest and lowest records of the average and minimum GCIPL thickness, respectively. The intra-protocol ICC of Macular Cube 512×128 protocol and Macular Cube 200×200 protocol were 0.986-0.996 and 0.927-0.997, respectively; and the inter-protocol ICC were 0.966-0.994. All intra-and inter-protocol ICC were > 0.800. CV of GCIPL thickness measurement using Macular Cube 512×128 protocol were (0.70±0.31)%-(1.35±0.86)%. ConclusionCirrus HD-OCT can measure macular GCIPL thickness in normal eyes with excellent repeatability and reproducibility.
Objective To analyze the BEST1 gene mutations and clinical features in patients with multifocal vitelliform retinopathy (MVR). Methods This is a retrospective case series study. Five MVR families with MVR, including 9 patients and 10 healthy family members were recruited. Clinical evaluations were performed in all MVR patients and their family members, including best-corrected visual acuity (BCVA), intraocular pressure (IOP), refraction, slit-lamp examination, 90 D preset lens examination, gonioscopy, color fundus photography, optical coherence tomography (OCT), fundus autofluorescence (AF), ultrasound biomicroscopy (UBM) and axial length measurement. Electro-oculogram (EOG) was performed in 12 eyes and visual field were performed in 13 eyes. Peripheral blood samples were collected in all subjects to extract genomic DNA. Coding exons and flanking intronic regions of BEST1 were amplified by polymerase chain reaction and analyzed by Sanger sequencing. Results Among the 5 MVR families, 3 probands from three families had family history, including 1 family had autosomal dominant inheritance pattern. Two patients from 2 families were sporadic cases. Screening of BEST1 gene identified four mutations, including three missense mutations (c.140G>T, p.R47L; c.232A>T, p.I78F; c.698C>T, p.P233L) and 1 deletion mutation (c.910_912del, p.D304del). Two mutations (p.R47L and p.I78F) were novel. The BCVA of affected eyes ranged from hand motion to 1.0. The mean IOP was (30.39±11.86) mmHg (1 mmHg=0.133 kPa). The mean refractive diopter was (-0.33±1.68) D. Twelve eyes had angle-closure glaucoma (ACG) and 4 eyes had angle closure (AC). EOG Arden ratio was below 1.55 in all patients. The mean anterior chamber depth was (2.17±0.29) mm. Visual field showed defects varied from paracentral scotoma to diffuse defects. The mean axial length was (21.87±0.63) mm. All MVR patients had multifocal vitelliform lesions in the posterior poles of retina. ACG eyes demonstrated pale optic disc with increased cup-to-disc ratio. OCT showed retinal edema, extensive serous retinal detachment and subretinal hyper-reflective deposits which had high autofluorescence in AF. The genetic testing and clinical examination were normal in 10 family members. Conclusions MVR patients harbored heterozygous mutation in the BEST1 gene. Two novel mutations (p.R47L and p.I78F) were identified. These patients had clinical features of multifocal vitelliform retinopathy and abnormal EOG. Most patients suffered from AC/ACG.