医学
分级(工程)
糖尿病性视网膜病变
光学相干层析成像
视网膜
医学物理学
眼科
验光服务
生物标志物
标准化
眼底摄影
重症监护医学
荧光血管造影
糖尿病
计算机科学
化学
土木工程
内分泌学
工程类
操作系统
生物化学
作者
Stela Vujosevic,José Cunha‐Vaz,João Figueira,Anat Löwenstein,Edoardo Midena,Mariacristina Parravano,Peter H. Scanlon,Rafael Simó,Cristina Hernández,Maria Madeira,Inês Marques,António Cunha-Vaz Martinho,Ana Rita Santos,Olga Simó‐Servat,Recivall P. Salongcay,Dinah Zur,Tünde Pető
摘要
Optical coherence tomography Angiography (OCT-A) represents a revolution in the noninvasive evaluation of retinal and choroidal circulation especially in detecting early clinical signs of diabetic retinal disease (DRD). With appropriate use, OCT-A characteristics and measurements have the potential to become new imaging biomarkers in managing and treating DRD. Major challenges include (a) provision of standardized outputs from different OCT-A instruments providing standardized terminology to correctly interpret data; (b) the presence of artifacts; (c) the absence of standardized grading or interpretation method in the evaluation of DRD, similar to that already established in fundus photography; and (d) establishing how OCT-A might be able to provide surrogate markers to demonstrate blood retinal barrier breakdown and vascular leakage, commonly associated with DRD. In fact, OCT-A guidelines for DRD are still evolving. The outputs of quantitative OCT-A data offer a unique opportunity to develop tools based on artificial intelligence to assist the clinicians in diagnosing, monitoring, and managing patients with diabetes. In addition, OCT-A has the potential to become a useful tool for the evaluation of cardiovascular diseases and different neurological diseases including cognitive impairment. This article written by the members of Diabetic Retinopathy expert committee of the European Vision Clinical Research network will review the available evidence on the use of OCT-A as an imaging biomarker in DRD and discuss the limits and the current application as well as future developments for its use in both clinical practice and research trials of DRD.
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