Lid speculum as effective active and reference electrodes for electroretinography recording in normal rabbits

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The study evaluated whether a stainless-steel eyelid speculum could serve as both active and reference electrodes for electroretinography (ERG) using a skin-electrode ERG system in six healthy Japanese White rabbits across three weekly sessions. Dark-adapted rod and maximal responses and light-adapted cone and 30 Hz flicker ERGs were recorded, yielding reproducible waveforms with identifiable a- and b-waves in every eye, including reported interocular agreement and moderate-to-substantial inter-session reproducibility for b-wave amplitude and implicit time. The authors note that a-wave metrics were less reliable due to lower amplitudes. The paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract

Purpose Although electroretinography (ERG) is vital for evaluating retinal function, conventional corneal electrodes slide or detach in animals. This study aimed to investigate the effectiveness of a novel approach to ERG recording using a metal eyelid speculum for both active and reference electrodes in conjunction with a skin electrode-based ERG device. Methods We tested a stainless-steel eyelid speculum as both active and reference electrodes with a skin-electrode ERG system (HE-2000vet) in six healthy Japanese White rabbits. Dark-adapted rod and maximal responses and light-adapted cone and 30 Hz flicker ERGs were recorded in three weekly sessions. Results Reproducible waveforms with identifiable a- and b-waves were obtained in every eye; rod b-waves reached 50–90 µV and cone b-waves 40–55 µV. Intraclass correlation coefficients revealed substantial interocular agreement and moderate-to-substantial inter-session reproducibility for b-wave amplitude and implicit time, whereas a-wave metrics were less reliable owing to lower amplitudes. The advantages of speculum electrode over corneal electrodes are that it requires no fur shaving, maintains stable contact regardless of globe orientation, and allows real-time observation. Conclusions This study demonstrated that an eyelid-speculum electrode is a practical, non-invasive alternative for veterinary and experimental ERG recordings, producing signal quality sufficient for longitudinal and interocular analyses while avoiding cosmetic and technical drawbacks of conventional methods.
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Abstract

Purpose Although electroretinography (ERG) is vital for evaluating retinal function, conventional corneal electrodes slide or detach in animals. This study aimed to investigate the effectiveness of a novel approach to ERG recording using a metal eyelid speculum for both active and reference electrodes in conjunction with a skin electrode-based ERG device.

Methods

We tested a stainless-steel eyelid speculum as both active and reference electrodes with a skin-electrode ERG system (HE-2000vet) in six healthy Japanese White rabbits. Dark-adapted rod and maximal responses and light-adapted cone and 30 Hz flicker ERGs were recorded in three weekly sessions.

Results

Reproducible waveforms with identifiable a- and b-waves were obtained in every eye; rod b-waves reached 50–90 µV and cone b-waves 40–55 µV. Intraclass correlation coefficients revealed substantial interocular agreement and moderate-to-substantial inter-session reproducibility for b-wave amplitude and implicit time, whereas a-wave metrics were less reliable owing to lower amplitudes. The advantages of speculum electrode over corneal electrodes are that it requires no fur shaving, maintains stable contact regardless of globe orientation, and allows real-time observation.

Conclusions

This study demonstrated that an eyelid-speculum electrode is a practical, non-invasive alternative for veterinary and experimental ERG recordings, producing signal quality sufficient for longitudinal and interocular analyses while avoiding cosmetic and technical drawbacks of conventional methods. Competing Interest Statement The authors have declared no competing interest. Footnotes Funding: This study was supported by JSPS KAKENHI (Grant Number 25K03446 and 23K09056) and a research grant from the Takahashi Industrial and Economic Research Foundation (Public Interest Incorporated Foundation). Commercial Relationships Disclosure: The authors declare no conflicts of interest. The equipment (HE-2000vet, Tomey Corporation) used in this study was procured at standard commercial pricing.

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