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Expanded 2-year follow-up of ranibizumab plus prompt or deferred laser or triamcinolone plus prompt laser for diabetic macular edema.瑞尼珠单抗联合即刻或延迟激光或曲安奈德联合即刻激光治疗糖尿病黄斑水肿的 2 年扩展随访。
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光学相干断层扫描偏心对黄斑中心小凹厚度测量的影响。

Effect of optical coherence tomography scan decentration on macular center subfield thickness measurements.

机构信息

Fundus Photograph Reading Center, Department of Ophthalmology and Visual Sciences, University of Wisconsin-Madison, Madison, Wisconsin, USA.

出版信息

Invest Ophthalmol Vis Sci. 2013 Jul 2;54(7):4512-8. doi: 10.1167/iovs.13-12265.

DOI:10.1167/iovs.13-12265
PMID:23761091
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3700389/
Abstract

PURPOSE

To investigate the effect of optical coherence tomography macular grid displacement on retinal thickness measurements.

METHODS

SD-OCT macular scans of 66 eyes with various retinal thicknesses were selected. Decentration of the 1-, 3-, 6-mm-diameter macular grid was simulated by manually adjusting the distance between center of the fovea (cFovea) and center of the grid (cGrid). Center subfield thickness (CSF) between the internal limiting membrane and the top of the retinal pigment epithelium was measured along the displacement distance where the grid was displaced in eight cardinal directions from the cFovea in steps of 100 μm within the central 1-mm subfield and then by 200 μm within the inner subfields. One-way/mixed-effects repeated-measures ANOVA models were used to determine changes of CSF (ΔCSF) as a function of displacement distance (for α = 0.05, power = 0.80 and effect size = 0.1). The interactions between the displacement distance and direction, center point thickness (CPT), and foveal contour were also analyzed.

RESULTS

The CSF measurement showed statistically significant error when the displacement distance between cFovea and cGrid exceeded 200 μm. The direction of displacement did not affect the ΔCSF-distance relationship, while the CPT and foveal contour significantly affected the relationship, in that some subgroups showed slightly larger tolerance in the displacement distance up to 300 μm before reaching significant ΔCSF.

CONCLUSIONS

Small displacement distances of the macular grid from the cFovea affect CSF measurements throughout a broad range of thicknesses and retinal contour alterations from disease. Accurate registration of OCT scans or post hoc repositioning of the grid is essential to optimize CSF accuracy.

摘要

目的

研究光相干断层扫描黄斑网格位移对视网膜厚度测量的影响。

方法

选择了 66 只具有不同视网膜厚度的 SD-OCT 黄斑扫描眼。通过手动调整黄斑中心(cFovea)和网格中心(cGrid)之间的距离,模拟 1、3、6mm 直径黄斑网格的偏心。在中央 1mm 子区域内以 100μm 的步长,在内部子区域内以 200μm 的步长,沿网格从 cFovea 向八个方位以 100μm 的步长在中心子区域内,然后在内部子区域内以 200μm 的步长,测量从内部限膜到视网膜色素上皮顶端的中心子场厚度(CSF)。采用单向/混合效应重复测量方差分析模型,确定 CSF(ΔCSF)随位移距离变化的关系(α=0.05,功率=0.80,效应量=0.1)。还分析了位移距离与方向、中心点厚度(CPT)和中心凹轮廓之间的相互作用。

结果

当 cFovea 和 cGrid 之间的位移距离超过 200μm 时,CSF 测量显示出统计学上的显著误差。位移方向不影响ΔCSF-距离关系,而 CPT 和中心凹轮廓显著影响该关系,在某些亚组中,在达到显著ΔCSF 之前,位移距离的容忍度稍大,可达 300μm。

结论

黄斑网格从 cFovea 小距离的位移会影响整个厚度范围和疾病引起的视网膜轮廓改变的 CSF 测量。OCT 扫描的精确配准或网格的事后重新定位对于优化 CSF 准确性至关重要。