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    Climate change and epilepsy: insights from clinical and basic science studies

    Gulcebi, M. and Bartolini, E. and Lee, O. and Panagiotis Lisgaras, C. and Onat, F. and Mifsud, J. and Striano, P. and Vezzani, A. and Hildebrand, M.S. and Jimenez-Jimenez, D. and Junck, L. and Lewis-Smith, D. and Scheffer, I.E. and Thijs, R.D. and Zuberi, S.M. and Blenkinsop, S. and Fowler, H.J. and Foley, Aideen and Sisodiya, S.M. (2021) Climate change and epilepsy: insights from clinical and basic science studies. Epilepsy & Behavior 116 (107791), ISSN 1525-5050.

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    Abstract

    Climate change is with us. As professionals who place value on evidence-based practice, climate change is something we cannot ignore. The current pandemic of the novel coronavirus, SARS-CoV-2, has demonstrated how global crises can arise suddenly and have a significant impact on public health. Global warming, a chronic process punctuated by acute episodes of extreme weather events, is an insidious global health crisis needing at least as much attention. Many neurological diseases are complex chronic conditions influenced at many levels by changes in the environment. This review aimed to collate and evaluate reports from clinical and basic science about the relationship between climate change and epilepsy. The keywords climate change, seasonal variation, temperature, humidity, thermoregulation, biorhythm, gene, circadian rhythm, heat, and weather were used to search the published evidence. A number of climatic variables are associated with increased seizure frequency in people with epilepsy. Climate change-induced increase in seizure precipitants such as fevers, stress, and sleep deprivation (e.g. as a result of more frequent extreme weather events) or vector-borne infections may trigger or exacerbate seizures, lead to deterioration of seizure control, and affect neurological, cerebrovascular, or cardiovascular comorbidities and risk of sudden unexpected death in epilepsy. Risks are likely to be modified by many factors, ranging from individual genetic variation and temperature-dependent channel function, to housing quality and global supply chains. According to the results of the limited number of experimental studies with animal models of seizures or epilepsy, different seizure types appear to have distinct susceptibility to seasonal influences. Increased body temperature, whether in the context of fever or not, has a critical role in seizure threshold and seizure-related brain damage. Links between climate change and epilepsy are likely to be multifactorial, complex, and often indirect, which makes predictions difficult. We need more data on possible climate-driven altered risks for seizures, epilepsy, and epileptogenesis, to identify underlying mechanisms at systems, cellular, and molecular levels for better understanding of the impact of climate change on epilepsy. Further focussed data would help us to develop evidence for mitigation methods to do more to protect people with epilepsy from the effects of climate change.

    Metadata

    Item Type: Article
    School: Birkbeck Faculties and Schools > Faculty of Humanities and Social Sciences > School of Social Sciences
    Depositing User: Aideen Foley
    Date Deposited: 05 Mar 2021 07:55
    Last Modified: 02 Aug 2023 18:07
    URI: https://eprints.bbk.ac.uk/id/eprint/42968

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