Hilbert transform analysis of the mouse scotopic electroretinogram reveals two distinct bursts of oscillatory potentials with progressively dimmer flashes.

IF 2.6 4区医学 Q2 OPHTHALMOLOGY

Documenta Ophthalmologica Pub Date : 2025-02-01 Epub Date: 2025-01-29 DOI:10.1007/s10633-025-10002-9

Mercedes Gauthier, Anna Polosa, Jean-Marc Lina, Pierre Lachapelle

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引用次数: 0

Abstract

Purpose: Study the scotopic oscillatory potentials (OPs) in mice over a wide range of flash luminance levels using the Hilbert transform (HT) to extract new features of the high frequency components of the electroretinogram (ERG).

Methods: Scotopic ERGs [Intensity: - 6.3 to 0.9 log cd∙s∙m^-2; 12 h of dark-adaptation] were obtained from adult mice (C57BL/6; n = 7). The Hilbert transform (HT) was obtained within 3 consecutive frequency bands (65-90 Hz, 90-115 Hz and 115-140 Hz), with OPs being denoised, automatically identified and analyzed. Measurements included: number of OPs, duration of the OP response, surface-under-the-curve (SUC) of the HT envelopes, implicit times, and instantaneous frequency at the HT envelope peak, mean peak time differences (PTD) between the envelopes of each frequency band (measuring their synchrony), correlation coefficient and lag between consecutive HT envelopes, as well as the number of peaks on the HT envelopes.

Results: The OP response duration, number of OPs and PTD all peaked for flashes between the level corresponding to the RodVmax (maximal b-wave amplitude of the rod ERG; i.e., the first asymptote of the scotopic luminance-response curve) and K (the flash luminance at which the amplitude of the b-wave is half of that of the RodVmax;), i.e., between -3.9 and -2.4 log cd∙s∙m^-2. The correlation between consecutive envelopes is close to 1 at flashes > -1.2 log cd∙s∙m^-2, with small lags (min. = 1.93 ± 0.45 ms at - 1.2 log cd∙s∙m^-2), then gradually drops to 0.81 ± 0.02 at the dimmest flash intensity (with a max. lag = 14.76 ± 8.92 ms at - 5.1 log cd∙s∙m^-2). Finally, we found that the single OP burst (i.e., a single HT envelope peak) seen at flash intensities > - 1.2 log cd∙s∙m^-2 progressively divided in two (or more) OP bursts (i.e., multiple HT envelope peaks) with gradually dimmer flashes.

Conclusions: Our HT method enabled the analysis of the OP response without the subjective interpretation of the experimenter. Analysis of the scotopic OPs at dim flashes with the HT revealed a novel feature of the OP response not yet reported elsewhere, namely: a split of the OP response into two (or more) distinct bursts. Furthermore, the synchrony peak (measured with the PTD) matched the peak in OP response duration between K and RodVmax, suggesting a disorganization (or dephasing) of the retinal signal in ERGs evoked for weaker flashes. The increased synchronization and correlation of the single burst observed for the strongest flashes could suggest an optimization or saturation of the retinal response. We believe that these novel features of the OP components of the ERG went unnoticed given that previous studies did not use weak enough flashes and failed to recognize the added value that time and frequency domain analysis of the ERG (such as what is achieved with the HT) brings to the interpretation (and our understanding) of the retinal response.

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小鼠暗位视网膜电图的希尔伯特变换分析揭示了两个不同的振荡电位爆发，闪烁逐渐变暗。

目的：利用希尔伯特变换（Hilbert transform， HT）提取视网膜电图（electroretinogram， ERG）高频成分的新特征，研究大范围闪光灯亮度下小鼠的暗位振荡电位（scotopic oscillatory potential, OPs）。方法：Scotopic ERGs[强度：- 6.3 ~ 0.9 log cd∙s∙m-2；成年小鼠(C57BL/6；n = 7)。在连续3个频带（65 ~ 90hz、90 ~ 115hz和115 ~ 140hz）内得到Hilbert变换（HT），对OPs进行去噪、自动识别和分析。测量包括：OP数、OP响应持续时间、HT包络的曲线下曲面（SUC）、隐式时间、包络峰值瞬时频率、各频段包络之间的平均峰值时间差（PTD）（测量其同同性）、连续HT包络之间的相关系数和滞后，以及HT包络上的峰数。结果：视杆ERG的最大b波幅值（RodVmax）对应的水平之间，闪烁的OP反应持续时间、OP次数和PTD均达到峰值；即暗斑亮度-响应曲线的第一个渐近线)和K （b波振幅为RodVmax的一半时的闪光亮度；），即-3.9至-2.4 log cd∙s∙m-2之间。连续包络的相关性在闪烁> -1.2 log cd∙s∙m-2时接近1，滞后较小（在-1.2 log cd∙s∙m-2时最小为1.93±0.45 ms），然后在最暗的闪烁强度下逐渐降至0.81±0.02 ms（最大为0.45 ms）。滞后= 14.76±8.92 ms （- 5.1 log cd∙s∙m-2）。最后，我们发现在> - 1.2 log cd∙s∙m-2的闪光强度下，单个OP爆发（即单个HT包络峰）逐渐分为两个（或更多）OP爆发（即多个HT包络峰），闪光逐渐变暗。结论：我们的HT方法可以在没有实验者主观解释的情况下分析OP反应。对暗闪光的暗位OPs的分析揭示了OP响应的一个新特征，该特征尚未在其他地方报道，即：OP响应分裂为两个（或更多）不同的爆发。此外，同步峰（用PTD测量）与K和RodVmax之间的OP反应持续时间峰相匹配，表明较弱闪光诱发的ERGs视网膜信号紊乱（或失相）。在最强的闪光中观察到的单次爆发的同步性和相关性的增加可能表明视网膜反应的优化或饱和。我们认为，由于以前的研究没有使用足够弱的闪光，并且没有认识到ERG的时间和频域分析（例如用HT取得的成果）对视网膜反应的解释（和我们的理解）带来的附加价值，因此没有注意到ERG的OP成分的这些新特征。

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

Documenta Ophthalmologica 医学-眼科学

CiteScore

3.50

自引率

21.40%

发文量

审稿时长

>12 weeks

期刊介绍： Documenta Ophthalmologica is an official publication of the International Society for Clinical Electrophysiology of Vision. The purpose of the journal is to promote the understanding and application of clinical electrophysiology of vision. Documenta Ophthalmologica will publish reviews, research articles, technical notes, brief reports and case studies which inform the readers about basic and clinical sciences related to visual electrodiagnosis and means to improve diagnosis and clinical management of patients using visual electrophysiology. Studies may involve animals or humans. In either case appropriate care must be taken to follow the Declaration of Helsinki for human subject or appropriate humane standards of animal care (e.g., the ARVO standards on Animal Care and Use).