炎症性囊样黄斑水肿眼的视力和病变区微视野图。
Visual acuity and microperimetric mapping of lesion area in eyes with inflammatory cystoid macular oedema.
机构信息
Department of Ophthalmology, Medical University of Vienna, Vienna, AustriaCenter for Medical Physics and Biomedical Engineering, Medical University of Vienna, Vienna, AustriaDepartment of Ophthalmology, Glostrup Hospital, Glostrup, DenmarkFaculty of Health and Medicine, University of Copenhagen, Copenhagen, Denmark.
出版信息
Acta Ophthalmol. 2014 Jun;92(4):332-8. doi: 10.1111/aos.12201. Epub 2013 Jun 27.
PURPOSE
To evaluate the effect of fluid accumulation on local visual function in inflammatory cystoid-macular-edema (ICME).
METHODS
This cross-sectional study applied optical-coherence-tomography over a 12×12 fovea-centered field in 50 patients with ICME and mapped the extent of fluid-filled spaces in various retinal layers, of subretinal-fluid and of diffuse-edema. Regression analysis examined effect of planimetric fluid-distribution on best-corrected-visual-acuity (BCVA) and mean microperimetric-sensitivity.
RESULTS
BCVA decreased with increasing central-neuroretinal-thickness (r= 0.52, p= 0.001), total central-retinal-thickness, including subneuroretinal-fluid (r= 0.41, p= 0.006), total cystoid-and-diffuse edema-area (r= 0.35, p= 0.036) and cystoid inner-nuclear-layer area (r= 0.39, p= 0.02). Mean retinal-sensitivity decreased with increasing diffuse edema-area (r= -0.86, p<0.0001), total cystoid-and-diffuse edema-area (r= -0.54, p= 0.001), cystoid inner-nuclear-layer area (r= -0.46, p= 0.008) and cystoid ganglion-cell-layer area (r= -0.6, p=0.049), central-neuroretinal-thickness (r= -0.42, p= 0.028) and total central-retinal-thickness (r= -0.34, p= 0.039). In multivariate-analyses BCVA was best described by central-neuroretinal-thickness, duration of edema, total cystoid-and-diffuse edema-area and cystoid inner-nuclear-layer area (R(2) = 0.5, p= 0.002). Mean retinal-sensitivity was best described by diffuse edema-area, total cystoid-and-diffuse edema-area and central-neuroretinal-thickness (R(2) = 0.75, p< 0.0001). Subretinal-fluid area and cystoid outer-nuclear/Henle's layer area had no effect on either BCVA or microperimetry.
CONCLUSIONS
Thickening of the neurosensory-fovea, not subfoveal-fluid, had major impact on both BCVA and retinal-sensitivity. The extent of edema in inner retinal layers also had major impact on both of these two functional parameters. Visual-impairment seems to differ depending on the layers involved, thus different types of fluid accumulation may potentially be given varying treatment priorities.
目的
评估炎症性囊样黄斑水肿(ICME)中液体蓄积对局部视力的影响。
方法
本横断面研究应用光学相干断层扫描对 50 例 ICME 患者进行了 12×12 视盘中心视野的检查,并绘制了各视网膜层、视网膜下液和弥漫性水肿中充满液体的空间的范围。回归分析检查了平面液分布对最佳矫正视力(BCVA)和平均微视野敏感度的影响。
结果
BCVA 随中央神经视网膜厚度(r=0.52,p=0.001)、总中央视网膜厚度(包括神经视网膜下液)(r=0.41,p=0.006)、总囊样和弥漫性水肿面积(r=0.35,p=0.036)和囊样内核层面积(r=0.39,p=0.02)的增加而降低。视网膜平均敏感度随弥漫性水肿面积(r=-0.86,p<0.0001)、总囊样和弥漫性水肿面积(r=-0.54,p=0.001)、囊样内核层面积(r=-0.46,p=0.008)和囊样神经节细胞层面积(r=-0.6,p=0.049)、中央神经视网膜厚度(r=-0.42,p=0.028)和总中央视网膜厚度(r=-0.34,p=0.039)的增加而降低。多元分析表明,BCVA 最好由中央神经视网膜厚度、水肿持续时间、总囊样和弥漫性水肿面积和囊样内核层面积来描述(R2=0.5,p=0.002)。视网膜平均敏感度最好由弥漫性水肿面积、总囊样和弥漫性水肿面积和中央神经视网膜厚度来描述(R2=0.75,p<0.0001)。视网膜下液面积和囊样外核/Henle 层面积对 BCVA 或微视野检查均无影响。
结论
神经感觉盘的增厚,而不是视盘下液,对 BCVA 和视网膜敏感度都有重大影响。内层视网膜水肿的程度也对这两个功能参数有重大影响。视力损害似乎取决于受累的层,因此不同类型的液体蓄积可能需要给予不同的治疗优先级。
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