高荧光信号与 METformin-MINimization of Geographic Atrophy Progression 试验中地理萎缩进展的关系

IF 3.2 Q1 OPHTHALMOLOGY Ophthalmology science Pub Date : 2024-09-12 DOI:10.1016/j.xops.2024.100620

Abu Tahir Taha BS , Liangbo Linus Shen MD , Antonio Diaz BS , Noor Chahal BS , Jasmeet Saroya BS , Mengyuan Sun PhD , Michael J. Allingham MD, PhD , Sina Farsiu PhD , Glenn Yiu MD, PhD , Jeremy D. Keenan MD, MPH , Jay M. Stewart MD

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引用次数: 0

摘要

目的研究边缘区局灶性高自荧光（RAFH）信号与地理萎缩（GA）生长率之间的关联，以及口服二甲双胍对RAFH纵向变化的影响。方法使用488 nm激发波长采集Fundus自荧光图像。两名蒙面分级人员使用专有的半自动分割软件和 ImageJ 识别并测量 RAFH 病变。我们计算 RAFH 的方法是，将环绕 GA 的 450 微米边缘内的高荧光区域除以该边缘内的总面积。结果基线 RAFH 与 GA 面积的基线平方根 0.065/年呈正相关（P < 0.001）。在整个研究队列中，基线 RAFH 越高，GA 面积的增长速度越快，单位为 mm2/年（Spearman's ρ = 0.53; P <0.001）。这种关联在经平方根转换的 GA 面积增长率（ρ = 0.19，P = 0.11）和周长调整后的 GA 增长率（ρ = 0.28，P = 0.02）中变得较弱，仅在后者中达到统计学意义。当该分析被分为 3 个基线 GA 三等分时，第一和第二等分显示出弱到中等程度的关联性，在所有 3 种 GA 增长率模式中均有统计学意义。边缘区局灶性高自荧光随着时间的推移略有增加，但显著性为 0.020/年（P < 0.01）。边缘区局灶性高自荧光略有增加，但随着时间的推移显著增加，0.020/年（P <0.01）。与观察组相比，口服二甲双胍与 RAFH 随时间的变化无显著相关性（0.023/年 vs. 0.016/年；P = 0.29）。然而，这种关联的效应大小可能取决于基线GA病变的大小，因此无论GA生长率的计算模式如何，中小型GA病变都会显示出这种关系。

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Association of Hyperautofluorescence Signals with Geographic Atrophy Progression in the METformin for the MINimization of Geographic Atrophy Progression Trial

Purpose

To investigate the association between rim area focal hyperautofluorescence (RAFH) signals and geographic atrophy (GA) growth rates, as well as the impact of oral metformin on the longitudinal change of RAFH.

Design

Secondary analysis of a randomized controlled trial.

Participants

Seventy-one eyes from 44 participants with GA and ≥6 months of follow-up in the METformin for the MINimization of geographic atrophy progression study.

Methods

Fundus autofluorescence images were captured using a 488 nm excitation wavelength. Two masked graders identified and measured RAFH lesions using proprietary semiautomatic segmentation software and ImageJ. We calculated RAFH by dividing the areas of hyperautofluorescence within a 450-μm rim circumscribing the GA by the total area enclosed within this rim.

Main Outcome Measures

Longitudinal changes in RAFH and GA area.

Results

Baseline RAFH was positively associated with the baseline square root of GA area 0.065/year (P < 0.001). In the entire study cohort, higher baseline RAFH was associated with a faster GA area growth rate in mm²/year (Spearman’s ρ = 0.53; P < 0.001). The association became weaker in square root-transformed GA area growth (ρ = 0.19, P = 0.11) and perimeter-adjusted GA growth rate (ρ = 0.28, P = 0.02), achieving statistical significance only in the latter. When this analysis was stratified into 3 baseline GA tertiles, the first and second tertiles showed weak to moderate association with statistical significance in all 3 modes of GA growth rates. Rim area focal hyperautofluorescence increased slightly but significantly over time at 0.020/year (P < 0.01). Rim area focal hyperautofluorescence increased slightly but significantly over time at 0.020/year (P < 0.01). The use of oral metformin was not significantly associated with the change in RAFH over time compared with the observation group (0.023/year vs. 0.016/year; P = 0.29).

Conclusions

Increased baseline RAFH is associated with faster GA area progression. However, the effect size of this association may depend on the baseline GA lesion size such that small to medium-sized GA lesions display this relationship regardless of the mode of the calculation of GA growth rate.