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长时多层光视网膜电图揭示视杆光感受器、色素上皮和视网膜下间隙的光致变形。

Light-evoked deformations in rod photoreceptors, pigment epithelium and subretinal space revealed by prolonged and multilayered optoretinography.

机构信息

Singapore Eye Research Institute, Singapore National Eye Centre, Singapore, Singapore.

SERI-NTU Advanced Ocular Engineering (STANCE) Program, Singapore, Singapore.

出版信息

Nat Commun. 2024 Jun 19;15(1):5156. doi: 10.1038/s41467-024-49014-5.

DOI:10.1038/s41467-024-49014-5
PMID:38898002
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11186825/
Abstract

Phototransduction involves changes in concentration of ions and other solutes within photoreceptors and in subretinal space, which affect osmotic pressure and the associated water flow. Corresponding expansion and contraction of cellular layers can be imaged using optoretinography (ORG), based on phase-resolved optical coherence tomography (OCT). Until now, ORG could reliably detect only photoisomerization and phototransduction in photoreceptors, primarily in cones under bright stimuli. Here, by employing a phase-restoring subpixel motion correction algorithm, which enables imaging of the nanometer-scale tissue dynamics during minute-long recordings, and unsupervised learning of spatiotemporal patterns, we discover optical signatures of the other retinal structures' response to visual stimuli. These include inner and outer segments of rod photoreceptors, retinal pigment epithelium, and subretinal space in general. The high sensitivity of our technique enables detection of the retinal responses to dim stimuli: down to 0.01% bleach level, corresponding to natural levels of scotopic illumination. We also demonstrate that with a single flash, the optoretinogram can map retinal responses across a 12° field of view, potentially replacing multifocal electroretinography. This technique expands the diagnostic capabilities and practical applicability of optoretinography, providing an alternative to electroretinography, while combining structural and functional retinal imaging in the same OCT machine.

摘要

光转导涉及光感受器和视网膜下腔中离子和其他溶质浓度的变化,这些变化会影响渗透压和相关的水流。使用基于相分辨光学相干断层扫描(OCT)的光视网膜图(ORG)可以对细胞层的相应膨胀和收缩进行成像。到目前为止,ORG 只能可靠地检测到光感受器中的光异构化和光转导,主要是在明亮刺激下的锥体中。在这里,我们通过采用相位恢复亚像素运动校正算法,该算法能够在长达一分钟的记录期间对纳米级组织动力学进行成像,并对时空模式进行无监督学习,从而发现了其他视网膜结构对视觉刺激的反应的光学特征。这些包括杆状光感受器的内外节、视网膜色素上皮和视网膜下腔。我们的技术具有很高的灵敏度,能够检测到对暗刺激的视网膜反应:低至 0.01%的漂白水平,相当于暗视照明的自然水平。我们还证明,单次闪光即可通过光视网膜图在 12°的视场中绘制视网膜反应图,有可能替代多焦视网膜电图。该技术扩展了光视网膜图的诊断能力和实际适用性,为视网膜电图提供了替代方法,同时在同一 OCT 机器中结合了结构和功能视网膜成像。

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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a088/11186825/1a58f4f013e9/41467_2024_49014_Fig7_HTML.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a088/11186825/83ae2c535252/41467_2024_49014_Fig2_HTML.jpg
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