📄 Pre-print available at https://europepmc.org/article/ppr/ppr636305.
Matcham F. PhD*1,2, Carr E. PhD*3, Meyer N. PhD4, White KM. BSc2, Oetzmann C. MSc2, Leightley D. PhD2, Lamers F. PhD5, Siddi S. PhD6, Cummins N. PhD3, Annas P. PhD7, de Girolamo G. MD8, Haro JM. PhD6, Lavelle G. PhD2, Li Q. PhD9, Lombardini F. MSc6, Mohr DC. PhD10, Narayan VA. PhD11, Penninx BWHJ. PhD5, Coromina M. BSc6, Riquelme Alacid G. MSc6, Simblett SK. PhD12, Nica R. PhD13, Wykes T. PhD12,14, Brasen JC. PhD7, Myin-Germeys I. PhD15, Dobson RJB. PhD3, Folarin AA. PhD3,14, Ranjan Y. MSc3, Rashid Z. PhD3, Dineley J. PhD3, Vairavan S. PhD9, Hotopf M. PhD2,14, on behalf of the RADAR-CNS consortium16.
*Joint first authors
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School of Psychology, University of Sussex, Falmer, UK.
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Department of Psychological Medicine, Institute of Psychiatry, Psychology and Neuroscience, King’s College London, London, UK.
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Department of Biostatistics and Health Informatics, Institute of Psychiatry, Psychology and Neuroscience, King’s College London, London, UK.
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Insomnia and Behavioural Sleep Medicine Clinic, University College London Hospitals NHS Foundation Trust, London, UK.
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Department of Psychiatry and Amsterdam Public Health Research Institute, Amsterdam UMC, Vrije Universiteit, Amsterdam, The Netherlands.
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Parc Sanitari Sant Joan de Déu, Fundació San Joan de Déu, CIBERSAM, Universitat de Barcelona, Barcelona, Spain.
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H. Lundbeck A/S, Valby, Denmark.
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IRCCS Instituto Centro San Giovanni di Dio Fatebenefratelli, Brescia, Italy.
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Janssen Research and Development, LLC, Titusville, NJ, USA
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Center for Behavioral Intervention Technologies, Department of Preventative Medicine, Northwestern University, Chicago, IL, USA.
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Davos Alzheimer’s Collaborative, Wayne, PA, USA.
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Department of Psychology, Institute of Psychiatry, Psychology and Neuroscience, King’s College London, London, UK.
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RADAR-CNS Patient Advisory Board.
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South London and Maudsley NHS Foundation Trust, London, UK
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Center for Contextual Psychiatry, Department of Neurosciences, KU Leuven, Leuven, Belgium. 16. Radar-cns.org
Importance: Approximately 90% of MDD patients report problems with sleep, making changes in sleep and circadian function are leading candidate markers for early relapse identification in MDD. Consumer-grade wearable devices may offer an opportunity for remote and real-time examination of dynamic changes in sleep.
Objective: We used FitBit data from individuals with recurrent MDD to describe longitudinal associations of sleep duration, quality, and regularity with subsequent depressive relapse and depression severity.
Design: Data were collected as part of a longitudinal remote measurement technologies (RMT) cohort study in people with recurrent MDD.
Participants: A total of 623 people with MDD wore a FitBit and completed regular outcome assessments via email for a median follow-up of 541 days. Multivariable regression models tested for associations between sleep features and depression outcomes. We considered two samples of people with at least one assessment of relapse (n=213) or at least one assessment of depression severity (n=390).
Results: Increased intra-individual variability in total sleep time, greater sleep fragmentation, and later sleep mid-points were associated with worse depression outcomes. Adjusted Population Attributable Fractions (PAFs) suggested that an intervention to increase sleep consistency in adults with MDD could reduce the population risk for depression by up to 18-37%.
Conclusion: We found consistent associations between wearable-derived sleep features and the probability of depressive relapse and increased depressive symptom severity. Disordered sleep is prevalent and disruptive, and challenging to capture longitudinally via conventional laboratory sleep assessments. Our study demonstrates a role for consumer-grade activity trackers to predict relapse risk and depression severity in people with recurrent MDD.