光学相干断层扫描预测进展为非新生血管性萎缩性年龄相关性黄斑变性风险的因素
Optical Coherence Tomography Predictors of Risk for Progression to Non-Neovascular Atrophic Age-Related Macular Degeneration.
作者信息
Sleiman Karim, Veerappan Malini, Winter Katrina P, McCall Michelle N, Yiu Glenn, Farsiu Sina, Chew Emily Y, Clemons Traci, Toth Cynthia A
机构信息
Department of Ophthalmology, Duke University Medical Center, Durham, North Carolina.
Department of Ophthalmology and Vision Science, University of California, Davis, Sacramento, California.
出版信息
Ophthalmology. 2017 Dec;124(12):1764-1777. doi: 10.1016/j.ophtha.2017.06.032. Epub 2017 Aug 26.
PURPOSE
Appearance of geographic atrophy (GA) on color photography (CP) is preceded by specific features on spectral-domain optical coherence tomography (SD OCT). We aimed to build SD OCT-based risk assessment models for 5-year new onset of GA and central GA on CP.
DESIGN
Prospective, longitudinal study.
PARTICIPANTS
Age-Related Eye Disease Study 2 Ancillary SD OCT study participants with age-related macular degeneration (AMD) with bilateral large drusen or noncentral GA and at least 1 eye without advanced disease (n = 317).
METHODS
For 1 eye per participant, qualitative and quantitative SD OCT variables were derived from standardized grading and semiautomated segmentation, respectively, at baseline. Up to 7 years later, annual outcomes were extracted and analyzed to fit multivariate logistic regression models and build a risk calculator.
MAIN OUTCOME MEASURES
New onset of CP-visible GA and central GA.
RESULTS
Over a follow-up median of 4.0 years and among 292 AMD eyes (without advanced disease at baseline) with complete outcome data, 46 (15.8%) developed central GA. Among 265 eyes without any GA on baseline CP, 70 (26.4%) developed CP-visible GA. Final multivariate models were adjusted for age. In the model for GA, the independent predicting SD OCT factors (P < 0.001-0.03) were: hyperreflective foci and retinal pigment epithelium (RPE) layer atrophy or absence, followed by choroid thickness in absence of subretinal drusenoid deposits, photoreceptor outer segment loss, RPE drusen complex volume, and RPE drusen complex abnormal thinning volume. For central GA, the factors (P < 0.001) were RPE drusen complex abnormal thinning volume, intraretinal fluid or cystoid spaces, hyperreflective foci, and RPE layer atrophy or absence. The models yielded a calculator that computes the probabilities of CP-visible, new-onset GA and central GA after 1 to 5 years.
CONCLUSIONS
For AMD eyes with large drusen and no advanced disease, we built a novel risk assessment model-based on age and SD OCT segmentation, drusen characteristics, and retinal pathology-for progression to CP-visible GA over up to 5 years. This calculator may simplify SD OCT grading and with future validation has a promising role as a clinical prognostic tool.
目的
在彩色眼底照相(CP)上出现地图样萎缩(GA)之前,光谱域光学相干断层扫描(SD OCT)会出现特定特征。我们旨在建立基于SD OCT的风险评估模型,以预测5年内GA和CP上中央GA的新发情况。
设计
前瞻性纵向研究。
参与者
年龄相关性眼病研究2辅助SD OCT研究的参与者,患有年龄相关性黄斑变性(AMD),双侧有大的玻璃膜疣或非中央性GA,且至少有1只眼无晚期疾病(n = 317)。
方法
每位参与者的1只眼,定性和定量的SD OCT变量分别来自基线时的标准化分级和半自动分割。在长达7年后,提取并分析年度结果,以拟合多变量逻辑回归模型并构建风险计算器。
主要观察指标
CP可见的GA和中央GA的新发情况。
结果
在中位随访4.0年期间,在292只AMD眼(基线时无晚期疾病)且有完整结局数据的眼中,46只(15.8%)发生了中央GA。在基线CP上无任何GA的265只眼中,70只(26.4%)出现了CP可见的GA。最终的多变量模型根据年龄进行了调整。在GA模型中,独立的预测SD OCT因素(P < 0.001 - 0.03)为:高反射灶和视网膜色素上皮(RPE)层萎缩或缺失,其次是在无视网膜下类玻璃膜疣沉积物时的脉络膜厚度、光感受器外段丢失、RPE玻璃膜疣复合体体积以及RPE玻璃膜疣复合体异常变薄体积。对于中央GA,因素(P < 0.001)为RPE玻璃膜疣复合体异常变薄体积、视网膜内液或囊样间隙、高反射灶以及RPE层萎缩或缺失。这些模型产生了一个计算器,可计算1至5年后CP可见的新发GA和中央GA的概率。
结论
对于有大玻璃膜疣且无晚期疾病的AMD眼,我们基于年龄和SD OCT分割、玻璃膜疣特征以及视网膜病理学构建了一种新型风险评估模型,用于预测长达5年内进展为CP可见GA的情况。该计算器可能会简化SD OCT分级,并且经过未来验证后有望作为一种临床预后工具发挥作用。
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