利用氧扩散模型和光学相干断层扫描血管造影术对视网膜缺血进行体积定量分析

IF 3.2 Q1 OPHTHALMOLOGY Ophthalmology science Pub Date : 2024-07-19 DOI:10.1016/j.xops.2024.100579

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引用次数: 0

摘要

目的视网膜缺血是糖尿病视网膜病变（DR）的一个主要特征。传统的 OCT 血管造影（OCTA）测量的非灌注区可测量血液供应，但不能测量缺血。我们从 33 只健康眼、33 只无视网膜病变的糖尿病眼、7 只不可转诊的 DR 眼、17 只可转诊但不威胁视力的 DR 眼和 133 只威胁视力的 DR 眼中获取了 223 个黄斑 OCTA 容量。方法使用光谱域 OCTA 系统（Avanti RTVue-XR，Visionix/Optovue, Inc）扫描每只眼睛，扫描深度为 1.6 毫米，扫描区域为 3 × 3 毫米（640 × 304 × 304 像素），以眼窝为中心。对于每个扫描的 OCTA 容积，我们都采用定制算法去除血流投影伪影。然后，我们对每个 OCTA 容积中的血管进行了增强、二值化和骨架化处理，并使用零阶动力学氧扩散模型生成了三维氧张力图。在进行眼窝配准和布氏膜平整后，将每个体积按健康对照组视网膜平均厚度进行缩放。最后，我们通过与使用相同处理方法从健康眼睛扫描中建立的参考图进行比较，提取出三维缺血图。为了评估缺血图对DR严重程度进行分级的能力，我们构建了接收者操作特征曲线，用于诊断糖尿病、可转诊的DR和危及视力的DR。结果缺血图显示缺血组织位于或靠近病理上无灌注的区域，但不包括正常的无血管组织，如眼窝无血管区。我们发现推断的三维氧张力、缺血指数和缺血体积比等多个新指标与 DR 的严重程度密切相关。结论在糖尿病眼中使用 OCTA 定量推断三维氧张力和缺血的方法可以识别缺血组织，这些缺血组织对 DR 的病理变化更具特异性。

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Quantitative Volumetric Analysis of Retinal Ischemia with an Oxygen Diffusion Model and OCT Angiography

Purpose

Retinal ischemia is a major feature of diabetic retinopathy (DR). Traditional nonperfused areas measured by OCT angiography (OCTA) measure blood supply but not ischemia. We propose a novel 3-dimensional (3D) quantitative method to derive ischemia measurements from OCTA data.

Design

Cross-sectional study.

Participants

We acquired 223 macular OCTA volumes from 33 healthy eyes, 33 diabetic eyes without retinopathy, 7 eyes with nonreferable DR, 17 eyes with referable but nonvision-threatening DR, and 133 eyes with vision-threatening DR.

Methods

Each eye was scanned using a spectral-domain OCTA system (Avanti RTVue-XR, Visionix/Optovue, Inc) with 1.6-mm scan depth in a 3 × 3-mm region (640 × 304 × 304 voxels) centered on the fovea. For each scanned OCTA volume, a custom algorithm removed flow projection artifacts. We then enhanced, binarized, and skeletonized the vasculature in each OCTA volume and generated a 3D oxygen tension map using a zero-order kinetics oxygen diffusion model. Each volume was scaled to the average retina thickness in healthy controls after foveal registration and flattening of the Bruch's membrane. Finally, we extracted 3D ischemia maps by comparison with a reference map established from scans of healthy eyes using the same processing. To assess the ability of the ischemia maps to grade DR severity, we constructed receiver operating characteristic curves for diagnosing diabetes, referable DR, and vision-threatening DR.

Main Outcome Measures

Spearman correlation coefficient and area under receiver operating characteristic curve (AUC) were used to quantify the ability of the ischemia maps to DR.

Results

The ischemia maps showed that the ischemic tissues were at or near pathologically nonperfused areas, but not the normally nonvascular tissue, such as the foveal avascular zone. We found multiple novel metrics, including inferred 3D-oxygen tension, ischemia index, and ischemic volume ratio, were strongly correlated with DR severity. The AUCs of ischemia index measured were 0.94 for diabetes, 0.89 for DR, 0.88 for referable DR, and 0.85 for vision-threatening DR.

Conclusions

A quantitative method to infer 3D oxygen tension and ischemia using OCTA in diabetic eyes can identify ischemic tissue that are more specific to pathologic changes in DR.