Targeted Defect-Mapping Microperimetry in Geographic Atrophy

IF 4.6 Q1 OPHTHALMOLOGY

Ophthalmology science Pub Date : 2025-06-14 DOI:10.1016/j.xops.2025.100856

Abera Saeed MChD , Robyn H. Guymer MBBS, PhD , Xavier Hadoux MEng, PhD , Maxime Jannaud MEng , Darvy Dang BOrth(Hons) , Lauren A.B. Hodgson MPH , Emily K. Glover OD , Erin E. Gee BAppSc(MedRad) , Peter van Wijngaarden MBBS(Hons), PhD , Zhichao Wu BAppSc(Optom), PhD

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Abstract

Purpose

To evaluate the effectiveness of targeted defect-mapping microperimetry (DMP) for capturing progressive visual function loss in eyes with a small extent of geographic atrophy (GA).

Design

Prospective longitudinal study.

Participants

Twenty-seven eyes from 25 participants with <0.75 disc areas of GA, seen over 145 visits in total.

Methods

All participants underwent high-density targeted DMP testing of a 4° radius region-of-interest. Two tests were performed at each visit, and participants were reviewed at 3-monthly intervals up to a 24-month period. Spearman rank correlations were calculated to assess structure–function relationships between the proportion of locations missed (PLM; nonresponse to 10-decibel stimuli) on each test and GA extent in the corresponding region tested. Targeted DMP outcome measures were derived based on evaluating the PLM from all test locations, or only from points adjacent to locations that were repeatably nonresponding on both baseline tests. These DMP outcome measures, and GA extent in the central 8° radius region, were compared based on the coefficient of variation (CoV; representing performance for capturing longitudinal changes) and sample size requirements for trials powered to detect a ≥30% treatment effect.

Main Outcome Measures

Correlation coefficients, CoV, and sample size estimates.

Results

There was a strong and moderate structure–function correlation between the PLM on targeted DMP and GA extent in the corresponding region tested at the cross section and longitudinally, respectively (correlation coefficient = 0.88 and 0.57, respectively). Evaluating PLM from points ≤0.5° adjacent to repeatably nonresponding locations at baseline was the best-performing DMP outcome measure (CoV = 71%), which was comparable with evaluating GA extent in the central 8° region (CoV = 80%). Evaluating this DMP outcome measure reduced the sample size of a 24-month trial by 46% compared with evaluating GA extent.

Conclusions

Targeted DMP testing can provide a sensitive functional outcome measure for trials that can capture longitudinal changes as effectively as measuring structural changes in eyes with a small extent of GA. The high structure–function correlations observed suggests that beneficial treatment effects on GA growth would likely be accompanied by corresponding evidence of functional benefit captured by targeted DMP testing.

Financial Disclosure(s)

Proprietary or commercial disclosure may be found in the Footnotes and Disclosures at the end of this article.

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靶向缺陷定位显微测量在地理萎缩中的应用

目的评价定向缺损定位显微术（targeted defect-mapping microperimetry， DMP）对小范围地理萎缩（geographic atrophy， GA）眼进行性视功能丧失的疗效。前瞻性纵向研究。25名参与者的27只眼睛的椎间盘面积为0.75，总共超过145次就诊。方法所有参与者在4°半径感兴趣区域进行高密度靶向DMP测试。每次访问时进行两次测试，每隔3个月至24个月对参与者进行评估。计算Spearman秩相关来评估缺失位置比例(PLM；对10分贝刺激的无反应)和相应区域的GA程度。目标DMP结果测量是基于对所有测试位置的PLM的评估，或者仅从在两个基线测试中重复无反应的位置附近的点得出的。根据变异系数(CoV；代表捕获纵向变化的性能)和用于检测≥30%治疗效果的试验的样本量要求。主要结果测量相关系数、CoV和样本量估计。结果在横切面和纵向上，靶DMP上的PLM与相应区域GA程度具有较强的结构-功能相关性（相关系数分别为0.88和0.57）。从基线处邻近≤0.5°的位置评估PLM是最佳的DMP结果测量（CoV = 71%），与评估中心8°区域的GA程度（CoV = 80%）相当。与评估GA程度相比，评估这种DMP结果可将24个月试验的样本量减少46%。结论有针对性的DMP检测可以为临床试验提供一种敏感的功能结果测量方法，可以像测量小程度GA的眼睛结构变化一样有效地捕获纵向变化。观察到的高结构-功能相关性表明，对GA生长的有益治疗效果可能伴随着靶向DMP测试捕获的相应功能益处的证据。财务披露专有或商业披露可在本文末尾的脚注和披露中找到。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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