Artificial intelligence-quantified schisis volume as a structural endpoint for gene therapy clinical trials in X-linked retinoschisis.

IF 3 3区医学 Q1 OPHTHALMOLOGY

Acta Ophthalmologica Pub Date : 2025-03-29 DOI:10.1111/aos.17485

Tien-En Tan, Peilun Dai, Jonathan Hensman, Peter Kiraly, Beau J Fenner, Yong Liu, Rick S M Goh, Ian C Han, Daniel S W Ting, Camiel J F Boon, M Dominik Fischer

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引用次数: 0

Abstract

Purpose: To use artificial intelligence (AI) for quantifying schisis volume (ASV) in X-linked retinoschisis (XLRS) for use as a structural endpoint in gene therapy clinical trials.

Methods: We used data from Singapore, the United Kingdom, the Netherlands, and the United States. The AI model was developed on 250 optical coherence tomography (OCT) slices, with human annotation of schisis cavities (Dataset 1). ASV was quantified on Dataset 2 - 16 OCT scans from 8 eyes with XLRS at two time points, and Dataset 4 - 62 OCT scans from 31 eyes at two time points before and after carbonic anhydrase inhibitor (CAI) treatment. A clinical trial was simulated comparing CAI treatment against control. Changes in ASV, central subfield thickness (CST) and central foveal thickness (CFT) were compared. Effect size (Cohen's d) of the three structural endpoints was determined and used in sample size calculations for a future XLRS gene therapy clinical trial, at a 0.05 significance level and 80% power.

Results: In the simulated clinical trial, all structural metrics showed greater reductions with intervention than with control, but only change in ASV reached statistical significance (p = 0.004). Cohen's d for ASV, CST and CFT were 0.972, 0.685 and 0.521, respectively. For the future gene therapy clinical trial, sample sizes required in each arm for ASV, CST and CFT were 18, 35 and 59 participants, respectively.

Conclusions: ASV measurements can track changes in schisis volume in response to treatment. As an endpoint, ASV has a greater statistical effect size than CST/CFT, which reduces sample size requirements for future XLRS gene therapy clinical trials.

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人工智能量化裂体积作为基因治疗x连锁视网膜裂临床试验的结构终点。

目的：利用人工智能（AI）定量x连锁视网膜裂（XLRS）的分裂体积（ASV），作为基因治疗临床试验的结构终点。方法：我们使用来自新加坡、英国、荷兰和美国的数据。人工智能模型建立在250张光学相干断层扫描（OCT）切片上，并对裂腔进行了人工注释（数据集1）。在碳酸酐酶抑制剂（CAI）治疗前后的两个时间点上，对数据集2 - 16张8只眼睛的XLRS OCT扫描和数据集4 - 62张31只眼睛的OCT扫描进行了ASV量化。模拟临床试验，比较CAI治疗与对照组。比较ASV、中央亚场厚度（CST）和中央凹厚度（CFT）的变化。确定三个结构终点的效应量（Cohen’s d），并将其用于未来XLRS基因治疗临床试验的样本量计算，显著性水平为0.05，功率为80%。结果：在模拟临床试验中，干预后的所有结构指标均比对照组下降更大，但只有ASV的变化具有统计学意义（p = 0.004）。ASV、CST和CFT的Cohen’s d分别为0.972、0.685和0.521。对于未来的基因治疗临床试验，ASV、CST和CFT每组所需的样本量分别为18、35和59名参与者。结论：ASV测量可以追踪裂裂体积在治疗后的变化。作为终点，ASV比CST/CFT具有更大的统计效应量，这减少了未来XLRS基因治疗临床试验的样本量要求。

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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来源期刊

Acta Ophthalmologica 医学-眼科学

CiteScore

7.60

自引率

5.90%

发文量

433

审稿时长

6 months

期刊介绍： Acta Ophthalmologica is published on behalf of the Acta Ophthalmologica Scandinavica Foundation and is the official scientific publication of the following societies: The Danish Ophthalmological Society, The Finnish Ophthalmological Society, The Icelandic Ophthalmological Society, The Norwegian Ophthalmological Society and The Swedish Ophthalmological Society, and also the European Association for Vision and Eye Research (EVER). Acta Ophthalmologica publishes clinical and experimental original articles, reviews, editorials, educational photo essays (Diagnosis and Therapy in Ophthalmology), case reports and case series, letters to the editor and doctoral theses.