在小鼠功能连接的宽场光学神经成像中控制家族性错误率。

Controlling the familywise error rate in widefield optical neuroimaging of functional connectivity in mice.

作者信息

White Brian R, Chan Claudia, Adepoju Temilola, Shinohara Russell T, Vandekar Simon

机构信息

University of Pennsylvania, Children's Hospital of Philadelphia, Perelman School of Medicine, Division of Cardiology, Department of Pediatrics, Philadelphia, Pennsylvania, United States.

University of Pennsylvania, Perelman School of Medicine, Department of Biostatistics, Epidemiology, and Informatics, Philadelphia, Pennsylvania, United States.

出版信息

Neurophotonics. 2023 Jan;10(1):015004. doi: 10.1117/1.NPh.10.1.015004. Epub 2023 Feb 3.

DOI:10.1117/1.NPh.10.1.015004

PMID:36756004

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9896098/

Abstract

SIGNIFICANCE

Statistical inference in functional neuroimaging is complicated by the multiple testing problem and spatial autocorrelation. Common methods in functional magnetic resonance imaging to control the familywise error rate (FWER) include random field theory (RFT) and permutation testing. The ability of these methods to control the FWER in optical neuroimaging has not been evaluated.

AIM

We attempt to control the FWER in optical intrinsic signal imaging resting-state functional connectivity using both RFT and permutation inference at a nominal value of 0.05. The FWER was derived using a mass empirical analysis of real data in which the null is known to be true.

APPROACH

Data from normal mice were repeatedly divided into two groups, and differences between functional connectivity maps were calculated with pixel-wise -tests. As the null hypothesis was always true, all positives were false positives.

RESULTS

Gaussian RFT resulted in a higher than expected FWER with either cluster-based (0.15) or pixel-based (0.62) methods. -distribution RFT could achieve FWERs of 0.05 (cluster-based or pixel-based). Permutation inference always controlled the FWER.

CONCLUSIONS

RFT can lead to highly inflated FWERs. Although -distribution RFT can be accurate, it is sensitive to statistical assumptions. Permutation inference is robust to statistical errors and accurately controls the FWER.

摘要

意义

功能神经成像中的统计推断因多重检验问题和空间自相关性而变得复杂。功能磁共振成像中控制家族性错误率（FWER）的常用方法包括随机场理论（RFT）和置换检验。这些方法在光学神经成像中控制FWER的能力尚未得到评估。

目的

我们试图在静息态功能连接的光学固有信号成像中使用RFT和置换推断将FWER控制在标称值0.05。FWER是通过对已知零假设为真的真实数据进行大规模实证分析得出的。

方法

将正常小鼠的数据反复分为两组，并用逐像素t检验计算功能连接图之间的差异。由于零假设始终为真，所有阳性结果均为假阳性。

结果

高斯RFT在基于簇（0.15）或基于像素（0.62）的方法中导致高于预期的FWER。t分布RFT可以实现0.05的FWER（基于簇或基于像素）。置换推断始终控制FWER。

结论

RFT可能导致FWER大幅膨胀。虽然t分布RFT可能准确，但它对统计假设敏感。置换推断对统计误差具有鲁棒性，并能准确控制FWER。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5717/9896098/ae495d9b0e16/NPh-010-015004-g001.jpg

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在小鼠功能连接的宽场光学神经成像中控制家族性错误率。

Controlling the familywise error rate in widefield optical neuroimaging of functional connectivity in mice.

作者信息

机构信息

出版信息

SIGNIFICANCE

AIM

APPROACH

RESULTS

CONCLUSIONS

意义

目的

方法

结果

结论

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