用于提取人类视网膜电图脉冲响应函数的时间白噪声分析

A Temporal White Noise Analysis for Extracting the Impulse Response Function of the Human Electroretinogram.

作者信息

Zele Andrew J, Feigl Beatrix, Kambhampati Pradeep K, Aher Avinash, McKeefry Declan, Parry Neil, Maguire John, Murray Ian, Kremers Jan

机构信息

Visual Science Laboratory, Institute of Health and Biomedical Innovation, School of Optometry and Vision Science, Queensland University of Technology (QUT), Brisbane, Australia.

Medical Retina Laboratory, Institute of Health and Biomedical Innovation, School of Biomedical Sciences, Queensland University of Technology (QUT), Brisbane, Australia.

出版信息

Transl Vis Sci Technol. 2017 Nov 1;6(6):1. doi: 10.1167/tvst.6.6.1. eCollection 2017 Nov.

DOI:10.1167/tvst.6.6.1

PMID:29109907

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5666911/

Abstract

PURPOSE

We introduce a method for determining the impulse response function (IRF) of the ERG derived from responses to temporal white noise (TWN) stimuli.

METHODS

This white noise ERG (wnERG) was recorded in participants with normal trichromatic vision to full-field (Ganzfeld) and 39.3° diameter focal stimuli at mesopic and photopic mean luminances and at different TWN contrasts. The IRF was obtained by cross-correlating the TWN stimulus with the wnERG.

RESULTS

We show that wnERG recordings are highly repeatable, with good signal-to-noise ratio, and do not lead to blink artifacts. The wnERG resembles a flash ERG waveform with an initial negativity (N1) followed by a positivity (P1), with amplitudes that are linearly related to stimulus contrast. These N1 and N1-P1 components showed commonalties in implicit times with the a- and b-waves of flash ERGs. There was a clear transition from rod- to cone-driven wnERGs at ∼1 photopic cd.m. We infer that oscillatory potentials found with the flash ERG, but not the wnERG, may reflect retinal nonlinearities due to the compression of energy into a short time period during a stimulus flash.

CONCLUSION

The wnERG provides a new approach to study the physiology of the retina using a stimulation method with adaptation and contrast conditions similar to natural scenes to allow for independent variation of stimulus strength and mean luminance, which is not possible with the conventional flash ERG.

TRANSLATIONAL RELEVANCE

The white noise ERG methodology will be of benefit for clinical studies and animal models in the evaluation of hypotheses related to cellular redundancy to understand the effects of disease on specific visual pathways.

摘要

目的

我们介绍一种从对时间性白噪声（TWN）刺激的反应中确定视网膜电图（ERG）冲动响应函数（IRF）的方法。

方法

在具有正常三色视觉的参与者中，记录了在中视和明视平均亮度以及不同TWN对比度下，对全视野（Ganzfeld）和直径39.3°的中心凹刺激的白噪声ERG（wnERG）。通过将TWN刺激与wnERG进行互相关来获得IRF。

结果

我们表明wnERG记录具有高度可重复性、良好的信噪比，并且不会导致眨眼伪像。wnERG类似于闪光ERG波形，初始为负向波（N1），随后为正向波（P1），其幅度与刺激对比度呈线性相关。这些N1和N1 - P1成分在隐含时间上与闪光ERG的a波和b波有共同之处。在约1明视cd.m时，从视杆驱动的wnERG到视锥驱动的wnERG有明显转变。我们推断，闪光ERG中发现的振荡电位，而不是wnERG中的振荡电位，可能反映了由于在刺激闪光期间能量压缩到短时间内而导致的视网膜非线性。

结论

wnERG提供了一种新的方法来研究视网膜生理学，其使用的刺激方法具有与自然场景相似的适应和对比度条件，从而允许独立改变刺激强度和平均亮度，这是传统闪光ERG无法做到的。

转化相关性

白噪声ERG方法将有助于临床研究和动物模型，以评估与细胞冗余相关的假设，从而了解疾病对特定视觉通路的影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6566/5666911/92dbc8d692a1/i2164-2591-6-6-1-f01.jpg

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用于提取人类视网膜电图脉冲响应函数的时间白噪声分析

A Temporal White Noise Analysis for Extracting the Impulse Response Function of the Human Electroretinogram.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

TRANSLATIONAL RELEVANCE

目的

方法

结果

结论

转化相关性

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