Increased Retinal Metabolism Induced by Flicker in the Isolated Mouse Retina

Linsenmeier, Robert A.; Dmitriev, Andrey V.

doi:10.1523/eneuro.0509-23.2024

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Cited by 2 publications

References 58 publications

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pH in the vertebrate retina and its naturally occurring and pathological changes

Dmitriev,

Linsenmeier

2025

Progress in Retinal and Eye Research

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pH in the vertebrate retina and its naturally occurring and pathological changes

Dmitriev,

Linsenmeier

2025

Progress in Retinal and Eye Research

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Effect of flicker-induced retinal stimulation of mice revealed by full-field electroretinography

Rai,

Lakshmanan,

Choi

et al. 2024

Preprint

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Purpose: To investigate the effects of brief flickering light stimulation (FLS) on retinal electrophysiology and its blood flow in normal C57BL6J mice. Methods: Retinal blood flow (RBF) and full-field electroretinography (ffERG) were measured before and after a 60-second long FLS (12 Hz, 0.1 cd·s/m2) in a cohort of 8-12 weeks old C57BL6J mice (n=10) under anaesthetic and light-adapted conditions. A separate set of age-matched mice (n=9) underwent RBF and ffERG measurements before and after steady light stimulation (SLS) at 1 cd/m2 under similar conditions. The changes in RBF (arterial and venous flow) and ffERG responses (amplitudes and implicit times of a- and b-wave) were analyzed. Results: FLS significantly increased both arterial (p=0.003) and venous (p=0.018) blood flow as well as b-wave amplitudes (p=0.017) compared to SLS, which did not have any significant changes in both RBF and ERG. However, no significant differences were found in other ffERG responses (amplitude and implicit time of a-wave and b-wave implicit time) between the two groups after light stimulation. An increase in b-wave amplitude was positively associated with increase in both arterial (r=0.655, p=0.040) and venous blood flow (r=0.638, p=0.047) in the FLS group. Conclusions: Transient FLS induced a significant increase in both RBF and electro-retinal activity, but such increase was not observed after SLS. Our results suggest the role of FLS, which exerts metabolic stress on the retina, in triggering retinal neurovascular coupling.

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Increased Retinal Metabolism Induced by Flicker in the Isolated Mouse Retina

Cited by 2 publications

References 58 publications

pH in the vertebrate retina and its naturally occurring and pathological changes

pH in the vertebrate retina and its naturally occurring and pathological changes

Effect of flicker-induced retinal stimulation of mice revealed by full-field electroretinography

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