视盘玻璃膜疣的多模态影像学特征。
Multimodal Imaging Features of Optic Disc Drusen.
机构信息
Department of Ophthalmology, Stanford University School of Medicine, Stanford, California, USA; Department of Ophthalmology, Renji Hospital, School of Medicine, Shanghai Jiao Tong University, Shanghai, China.
Department of Ophthalmology, Stanford University School of Medicine, Stanford, California, USA; Retina Service, Department of Ophthalmology, Massachusetts Eye and Ear, Harvard Medical School, Boston, Massachusetts, USA.
出版信息
Am J Ophthalmol. 2021 May;225:18-26. doi: 10.1016/j.ajo.2020.12.023. Epub 2021 Jan 21.
PURPOSE
To identify key en face multimodal imaging features of optic disc drusen (ODD).
DESIGN
Retrospective cross-sectional study.
METHODS
Setting: a single academic center. Patient orStudyPopulation: 786 patients (10-82 years of age) with diagnostic codes for optic disc drusen (ODD) in clinical notes extracted using natural language processing. Intervention orObservationProcedures: color fundus imaging, green-light and blue-light fundus autofluorescence (FAF), near-infrared reflectance (NIR), and enhanced-depth imaging optical coherence tomography (EDI-OCT). MainOutcomeMeasurements: Ophthalmic imaging characteristics and sensitivity of en face imaging compared with EDI-OCT.
RESULTS
A total of 38 patients (61 eyes) had high-quality EDI-OCT scans and en face multimodal imaging. Green-light FAF imaging had the highest diagnostic sensitivity (96.8%) for ODD and showed homogeneous hyperautofluorescence, whereas blue-light FAF imaging had heterogeneous brightness, which helped differentiate superficial from deep ODD. Blue-light FAF (93.5%) and NIR (91.8%) imaging were also sensitive tests and revealed papillary and peripapillary features that were not well seen on green-light FAF, including the size and depth of ODD, morphology of the optic disc, and common ODD-associated structures such as horizontal hyper-reflective lines and peripapillary hyper-reflective ovoid mass-like structures (PHOMS). Color fundus imaging had the lowest sensitivity (82%). There was good inter-rater reliability for all en face imaging modalities (P < .0001 for all).
CONCLUSIONS
In en face imaging, green-light FAF had the highest sensitivity for the diagnosis of ODD, whereas blue-light FAF and NIR images provided more information regarding the severity, location, depth, and size of ODD. In eyes that are negative on green-light FAF, EDI-OCT should be performed and provides the highest-resolution characterization of the entire optic disc to assess or rule out ODD.
目的
确定视神经盘玻璃膜疣(ODD)的关键面影像学特征。
设计
回顾性横断面研究。
方法
设置:单一学术中心。患者或研究人群:使用自然语言处理从临床记录中提取的诊断为视神经盘玻璃膜疣(ODD)的 786 名患者(年龄 10-82 岁)。干预或观察程序:眼底彩色成像、绿光和蓝光眼底自发荧光(FAF)、近红外反射(NIR)和增强深度成像光学相干断层扫描(EDI-OCT)。主要观察指标:面成像特征和与 EDI-OCT 比较的敏感性。
结果
共有 38 名患者(61 只眼)进行了高质量的 EDI-OCT 扫描和面成像多模态成像。绿光 FAF 成像对 ODD 的诊断敏感性最高(96.8%),显示均匀的高自发荧光,而蓝光 FAF 成像具有不均匀的亮度,有助于区分浅层和深层 ODD。蓝光 FAF(93.5%)和 NIR(91.8%)成像也是敏感的测试,显示了绿光 FAF 不易看到的乳头和乳头周围特征,包括 ODD 的大小和深度、视盘形态以及常见的 ODD 相关结构,如水平高反射线和乳头周围高反射卵圆形团块样结构(PHOMS)。眼底彩色成像的敏感性最低(82%)。所有面成像模式的观察者间一致性均较好(所有 P<.0001)。
结论
在面成像中,绿光 FAF 对 ODD 的诊断敏感性最高,而蓝光 FAF 和 NIR 图像提供了更多关于 ODD 严重程度、位置、深度和大小的信息。在绿光 FAF 阴性的眼中,应进行 EDI-OCT 检查,并对面神经盘进行最高分辨率的特征评估,以评估或排除 ODD。
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