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Phase-Sensitive Measurements of Depth-Dependent Signal Transduction in the Inner Plexiform Layer.内网状层中深度依赖性信号转导的相敏测量
Front Med (Lausanne). 2022 Jun 1;9:885187. doi: 10.3389/fmed.2022.885187. eCollection 2022.
3
Multimode fiber as a tool to reduce cross talk in Fourier-domain full-field optical coherence tomography.多模光纤作为一种减少傅里叶域全场光学相干断层扫描中串扰的工具。
Opt Lett. 2022 Feb 15;47(4):838-841. doi: 10.1364/OL.449498.
4
Toward a clinical optoretinogram: a review of noninvasive, optical tests of retinal neural function.迈向临床视网膜电图:视网膜神经功能的非侵入性光学检测综述
Ann Transl Med. 2021 Aug;9(15):1270. doi: 10.21037/atm-20-6440.
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Fourier-domain full-field optical coherence tomography with real-time axial imaging.傅里叶域全场光学相干断层成像与实时轴向成像。
Opt Lett. 2021 Sep 15;46(18):4478-4481. doi: 10.1364/OL.435104.
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Multimode fiber enables control of spatial coherence in Fourier-domain full-field optical coherence tomography for in vivo corneal imaging.多模光纤可用于控制傅里叶域全场光学相干断层扫描中的空间相干性,从而实现活体角膜成像。
Opt Lett. 2021 Mar 15;46(6):1413-1416. doi: 10.1364/OL.417178.
7
Optoretinography of individual human cone photoreceptors.个体人眼视锥细胞光感受器的光感受器细胞计检查法
Opt Express. 2020 Dec 21;28(26):39326-39339. doi: 10.1364/OE.409193.
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Adaptive-glasses time-domain FFOCT for wide-field high-resolution retinal imaging with increased SNR.自适应眼镜时域 FFOCT,用于具有更高 SNR 的宽场高分辨率视网膜成像。
Opt Lett. 2020 Nov 1;45(21):5901-5904. doi: 10.1364/OL.403135.
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Mechanisms of Light-Induced Deformations in Photoreceptors.光感受器中光诱导变形的机制。
Biophys J. 2020 Oct 20;119(8):1481-1488. doi: 10.1016/j.bpj.2020.09.005. Epub 2020 Sep 16.
10
Functional optical coherence tomography enables optoretinography of photoreceptor dysfunction due to retinal degeneration.功能性光学相干断层扫描能够对因视网膜变性导致的光感受器功能障碍进行视网膜电图检查。
Biomed Opt Express. 2020 Aug 27;11(9):5306-5320. doi: 10.1364/BOE.399334. eCollection 2020 Sep 1.

使用时空光学相干断层扫描(STOC-T)系统采集的明适应闪烁视网膜电图。

Light-adapted flicker optoretinograms captured with a spatio-temporal optical coherence-tomography (STOC-T) system.

作者信息

Tomczewski Sławomir, Węgrzyn Piotr, Borycki Dawid, Auksorius Egidijus, Wojtkowski Maciej, Curatolo Andrea

机构信息

International Centre for Translational Eye Research, Skierniewicka 10A, 01-230, Warszawa, Poland.

Institute of Physical Chemistry, Polish Academy of Sciences, Kasprzaka 44/52, 01-224 Warszawa, Poland.

出版信息

Biomed Opt Express. 2022 Mar 17;13(4):2186-2201. doi: 10.1364/BOE.444567. eCollection 2022 Apr 1.

DOI:10.1364/BOE.444567
PMID:35519256
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9045926/
Abstract

For many years electroretinography (ERG) has been used for obtaining information about the retinal physiological function. More recently, a new technique called optoretinography (ORG) has been developed. In one form of this technique, the physiological response of retinal photoreceptors to visible light, resulting in a nanometric photoreceptor optical path length change, is measured by phase-sensitive optical coherence tomography (OCT). To date, a limited number of studies with phase-based ORG measured the retinal response to a flickering light stimulation. In this work, we use a spatio-temporal optical coherence tomography (STOC-T) system to capture optoretinograms with a flickering stimulus over a 1.7 × 0.85 mm area of a light-adapted retina located between the fovea and the optic nerve. We show that we can detect statistically-significant differences in the photoreceptor optical path length (OPL) modulation amplitudes in response to different flicker frequencies and with better signal to noise ratios (SNRs) than for a dark-adapted eye. We also demonstrate the ability to spatially map such response to a patterned stimulus with light stripes flickering at different frequencies, highlighting the prospect of characterizing the spatially-resolved temporal-frequency response of the retina with ORG.

摘要

多年来,视网膜电图(ERG)一直被用于获取有关视网膜生理功能的信息。最近,一种名为光视网膜电图(ORG)的新技术被开发出来。在该技术的一种形式中,视网膜光感受器对可见光的生理反应会导致纳米级的光感受器光路长度变化,通过相敏光学相干断层扫描(OCT)来测量。到目前为止,基于相位的ORG的研究数量有限,主要测量了视网膜对闪烁光刺激的反应。在这项工作中,我们使用时空光学相干断层扫描(STOC-T)系统,在位于中央凹和视神经之间的光适应视网膜的1.7×0.85平方毫米区域上,用闪烁刺激捕获光视网膜电图。我们表明,与暗适应眼睛相比,我们能够检测到对不同闪烁频率的光感受器光路长度(OPL)调制幅度的统计学显著差异,并且具有更好的信噪比(SNR)。我们还展示了对以不同频率闪烁的光条纹图案刺激的这种反应进行空间映射的能力,突出了用ORG表征视网膜空间分辨时间频率反应的前景。