Sensitization and Habituation of Hyper-Excitation to Constant Presentation of Pattern-Glare Stimuli

Thomas Jefferis, Cihan Dogan, Claire E Miller, Maria Karathanou, Austyn Tempesta, Andrew J Schofield, Howard Bowman

Research output: Contribution to journalArticlepeer-review

Abstract

BACKGROUND/OBJECTIVES: Pattern glare, associated with cortical hyperexcitability, induces visual distortions and discomfort, particularly in individuals susceptible to migraines or epilepsy. While previous research has primarily focused on transient EEG responses to patterned stimuli, this study aims to investigate how continuous presentation of pattern-glare stimuli affects neural adaptation over both fine (seconds) and coarse (entire experiment) temporal scales.

METHODS: EEG recordings were obtained from 40 healthy participants exposed to horizontal square-wave gratings at three spatial frequencies presented continuously for three seconds each across multiple trials. Participants' susceptibility to visual stress, headaches, and discomfort was assessed using questionnaires before and during the experiment. The experiment employed a two-by-two design to evaluate habituation (exponentially decreasing response) and sensitisation (exponentially increasing response) effects at two different time granularities. Mass univariate analysis with cluster-based permutation tests was conducted to identify significant brain response changes during the period of constant stimulation, which we call the DC-shift period.

RESULTS: Significant effects were observed during the DC-shift period, indicating sustained hyper-excitation to the medium-pattern glare stimulus. In particular, the mean/intercept analysis revealed a consistent positive-going response to the medium stimulus throughout the DC-shift period, suggesting continued neural engagement. Participants reporting higher discomfort exhibited sensitisation at fine temporal granularity and habituation at coarser temporal granularity. These effects were predominantly localised to the right posterior scalp regions.

CONCLUSIONS: The study demonstrates that individuals sensitive to pattern-glare stimuli exhibit dynamic neural adaptation characterised by short-term sensitisation and long-term habituation. These findings enhance the understanding of cortical hyperexcitability mechanisms and may inform future interventions for visual-stress-related conditions, such as migraines and epilepsy. Further research is needed to explore the underlying neural processes and validate these effects in clinical populations.

Original languageEnglish
Pages (from-to)1585-1610
Number of pages26
JournalNeurology international
Volume16
Issue number6
Early online date21 Nov 2024
DOIs
Publication statusPublished - Dec 2024

Bibliographical note

Copyright © 2024 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).

Data Access Statement

All code used to generate the analysis, figures, and results is available on GitHub at https://github.com/tomjefferis/FieldTrip-Pattern-Glare, the data is available upon request.

Keywords

  • EEG
  • ERP
  • cortical hyperexcitability
  • discomfort
  • headache
  • migraine
  • pattern glare

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