Assessment of the uniform field electroretinogram for mouse retinal ganglion cell functional analysis.

IF 2.6 4区医学 Q2 OPHTHALMOLOGY

Documenta Ophthalmologica Pub Date : 2023-08-01 DOI:10.1007/s10633-023-09933-y

Pamela S Lagali, Ushananthini Shanmugalingam, Adam N Baker, Natalie Mezey, Patrice D Smith, Stuart G Coupland, Catherine Tsilfidis

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Abstract

Purpose: The uniform field electroretinogram (UF-ERG) has been suggested as an alternative to the pattern electroretinogram (PERG) for non-invasive assessment of retinal ganglion cell (RGC) function in primates. We evaluated the validity of the UF-ERG to assess mouse RGC activity in vivo.

Methods: Unilateral optic nerve crush (ONC) was performed on adult C57BL/6J mice. Contralateral eyes with uncrushed optic nerves and eyes from surgically naive mice served as experimental controls. Electrophysiological visual assessment was performed at 12 weeks post-ONC. Flash-mediated visual-evoked cortical potentials (VEPs) were measured to confirm the robustness of the ONC procedure. Full-field flash ERGs were used to interrogate photoreceptor and retinal bipolar cell function. RGC function was assessed with pattern ERGs. Summed onset and offset UF-ERG responses to alternating dark and light uniform field flash stimuli of different intensities and wavelengths were recorded from ONC and control eyes, and relative differences were compared to the PERG results. Following electrophysiological analysis, RGC loss was monitored by immunohistochemical staining of the RGC marker protein, RBPMS, in post-mortem retinal tissues.

Results: ONC dramatically impacts RGC integrity and optic nerve function, demonstrated by reduced RGC counts and near complete elimination of VEPs. ONC did not affect scotopic ERG a-wave and b-wave amplitudes, while PERG amplitudes of eyes subjected to ONC were reduced by approximately 50% compared to controls. Summation of ON and OFF UF-ERG responses did not reveal statistically significant differences between ONC and control eyes, regardless of visual stimulus.

Conclusions: PERG responses are markedly impaired upon ONC, while UF-ERG responses are not significantly affected by surgical trauma to RGC axons in mice. The more closely related pattern and uniform field ERGs recorded in primates suggests species-specific differences in RGC features or subpopulations corresponding to PERG and UF-ERG response generators, limiting the utility of the UF-ERG for mouse RGC functional analysis.

Abstract Image

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均匀场视网膜电图对小鼠视网膜神经节细胞功能分析的评价。

目的:一致视场视网膜电图(UF-ERG)被认为是替代模式视网膜电图(PERG)的一种非侵入性评估灵长类动物视网膜神经节细胞(RGC)功能的方法。我们评估了UF-ERG在体内评估小鼠RGC活性的有效性。方法:对成年C57BL/6J小鼠进行单侧视神经压迫(ONC)。视神经未损伤的对侧眼睛和手术未成熟小鼠的眼睛作为实验对照。onc后12周进行电生理视觉评估。通过测量闪现介导的视觉诱发皮层电位(VEPs)来证实ONC程序的稳健性。用全视场闪光电图检测光感受器和视网膜双极细胞的功能。RGC功能用模式eeg进行评估。记录ONC和对照眼对不同强度和波长的暗、光交替均匀场闪光刺激的总起效和偏移UF-ERG反应，并与PERG结果进行比较。在电生理分析之后，通过对死后视网膜组织中RGC标记蛋白RBPMS的免疫组化染色来监测RGC的丢失。结果:ONC显著影响RGC完整性和视神经功能，表现为RGC计数减少和vep几乎完全消除。ONC不影响暗位ERG a波和b波振幅，而与对照组相比，ONC眼睛的PERG振幅降低了约50%。无论视觉刺激如何，ONC眼和对照眼的ON和OFF UF-ERG反应的总和没有显示统计学上的显著差异。结论:ONC对小鼠PERG反应有明显影响，而手术损伤RGC轴突对UF-ERG反应无明显影响。在灵长类动物中记录的更密切相关的模式和均匀的场erg表明，与PERG和UF-ERG响应产生器对应的RGC特征或亚群存在物种特异性差异，限制了UF-ERG在小鼠RGC功能分析中的应用。

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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).