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find Author "XiaoHui" 3 results
  • Characteristics of spectral-domain optical coherence tomography of drusen in atrophic age-related macular degeneration

    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.

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  • Choroidal thickness of macular and peripapillary area in malignant glaucoma

    ObjectiveTo compare the choroidal thickness (CT) of macular and peripapillary area among malignant glaucoma(MG), chronic primary angle-closure glaucoma (CPACG) and normal control eyes. And to investigate the correlation between CT and MG. Methods Sixteen subjects (32 eyes) with MG, 31 (31 eyes) with CPACG and 32 (32 eyes) normal controls were collected. MG eyes and the fellow non-MG eyes were included in the MG group. CT of all subjects was measured in the fovea, 1mm and 3mm to the fovea and peripapillary area using enhanced-depth imaging technique of optical coherence tomography (OCT-EDI). The average of CT in fovea by horizontal and vertical macular scan was defined as the average CT in fovea. The average of temporal, superior, nasal and inferior CT in 1 mm and 3 mm to the fovea were measured respectively. The average of temporal, superior, nasal and inferior CT was defined as the average CT in peripapillary area. The differences of CT among MG, CPACG and normal controls were compared. And the differences of CT between MG eyes and the fellow non-MG eyes were compared. ResultsAfter eliminating the influence of age, the average CT of MG in the fovea, 1mm and 3mm to the fovea was significantly thicker than that of CPACG and normal controls (P < 0.05). And the average CT of CPACG in the fovea, 1mm and 3mm to the fovea was significantly thicker than that of normal controls (P < 0.05). In peripapillary area, the temporal, superior and inferior CT of MG was significantly thicker than that of CPACG and normal controls (P < 0.05). There was no significant difference of CT in peripapillary area between CPACG and normal controls (P > 0.05). In the fovea, 1mm and 3mm to the fovea and peripapillary area, there was no significant difference of CT between MG eye and the fellow non-MG eye in MG group (t=-1.029~-0.130, P > 0.05). ConclusionsThe choroid thickness of macular and peripapillary area in MG eyes is thicker than that of CPACG and the normal controls. An increased CT of macular and peripapillary area may be one of the risk factors for MG.

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  • Reproducibility of macular ganglion cell-inner plexiform layer measurements using spectral-domain optical coherence tomography

    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.

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