Affiliations: School of Psychological Sciences, and Turner Institute for Brain and Mental Health, Monash University, Clayton, VIC, Australia
Correspondence:
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Correspondence to: Emily Fitzgerald, PhD Candidate, School of Psychological Sciences, Turner Institute for Brain and Mental Health, Monash University, Clayton Campus, Wellington Road, Clayton, VIC 3800, Australia. Tel.: +61 03 9905 1918; E-mail: emily.fitzgerald@monash.edu.
Abstract: Background:In healthy people, sleep and circadian disruption are linked to cognitive deficits. People with Huntington’s disease (HD), who have compromised brain function and sleep and circadian disturbances, may be even more susceptible to these cognitive effects. Objective:To conduct a comprehensive review and synthesis of the literature in HD on the associations of cognitive dysfunction with disturbed sleep and circadian rhythms. Methods:We searched MEDLINE via OVID, CINAHL Plus, EMBASE via OVID, and PubMed in May 2023. The first author then screened by title and abstract and conducted a full review of remaining articles. Results:Eight studies investigating the influence of sleep and/or circadian rhythms on cognitive function in HD were found. In manifest HD, poorer sleep was associated with worse cognitive function. For behavioral 24-hour (circadian) rhythms, two studies indicated that later wake times correlated with poorer cognitive function. No reported studies in HD examined altered physiological 24-hour (circadian) rhythms and cognitive impairment. Conclusion:Some associations exist between poor sleep and cognitive dysfunction in manifest HD, yet whether these associations are present before clinical diagnosis is unknown. Whether circadian disturbances relate to cognitive impairment in HD also remains undetermined. To inform sleep and circadian interventions aimed at improving cognitive symptoms in HD, future research should include a range of disease stages, control for external factors, and utilize robust cognitive batteries targeted to the aspects of cognitive function known to be adversely affected in HD.