Обзорная статья

Keeping an eye on circadian time in clinical research and medicine

Elizabeth B. KlermanDepartment of Neurology Massachusetts General Hospital, Brigham and Women's Hospital Boston Massachusetts USAAllison J. BragerPlans Analysis, and Futures John F. Kennedy Special Warfare Center and School Fort Bragg North Carolina USAMary A. CarskadonAlpert Medical School of Brown University Department of Psychiatry and Human Behavior EP Bradley Hospital Chronobiology and Sleep Research Providence Rhode Island USAChristopher M. DepnerDepartment of Health and Kinesiology University of Utah Salt Lake City Utah USAF. FosterSir Jules Thorn Sleep and Circadian Neuroscience Institute Nuffield Department of Clinical Neurosciences University of Oxford Oxford UKNamni GoelBiological Rhythms Research Laboratory Department of Psychiatry and Behavioral Sciences Rush University Medical Center Chicago Illinois USAMary E. HarringtonNeuroscience Program Smith College Northampton Massachusetts USAPaul M. HollowayRadcliffe Department of Medicine University of Oxford Oxford UKMelissa P. KnauertSection of Pulmonary Critical Care, and Sleep Medicine Department of Internal Medicine Yale School of Medicine New Haven Connecticut USAMonique K. LeBourgeoisSleep and Development Laboratory Department of Integrative Physiology University of Colorado Boulder Boulder Colorado USAJonathan O. LiptonBoston Children's Hospital and Kirby Neurobiology Center Boston Massachusetts USAMartha MerrowInstitute of Medical Psychology Faculty of Medicine LMU Munich GermanySara MontagneseChronobiology Faculty of Health and Medical Sciences University of Surrey Guildford UKMingMing NingClinical Proteomics Research Center and Cardio‐Neurology Division Massachusetts General Hospital Harvard Medical School Boston Massachusetts USADavid RayNIHR Oxford Biomedical Research Centre John Radcliffe Hospital Oxford UKFrank A. J. L. ScheerDivision of Sleep Medicine Harvard Medical School Boston Massachusetts USASteven A. SheaOregon Institute of Occupational Health Sciences Oregon Health and Science University Portland Oregon USADebra J. SkeneChronobiology Faculty of Health and Medical Sciences University of Surrey Guildford UKClaudia SpiesDepartment of Anesthesiology and Intensive Care Medicine Charité – Universitaetsmedizin Berlin Berlin GermanyBart StaelsUniv Lille Inserm CHU Lille Institut Pasteur de Lille U1011‐EGID Lille FranceMarie‐Pierre St‐OngeDivision of General Medicine and Center of Excellence for Sleep and Circadian Research Department of Medicine Columbia University Irving Medical Center New York New York USASteffen TiedtInstitute for Stroke and Dementia Research University Hospital LMU Munich GermanyPhyllis C. ZeeCenter for Circadian and Sleep Medicine Division of Sleep Medicine Northwestern University Feinberg School of Medicine Chicago Illinois USAHelen J. BurgessSleep and Circadian Research Laboratory Department of Psychiatry University of Michigan Ann Arbor Michigan USA

2022en

ABI

Аннотация

BACKGROUND: Daily rhythms are observed in humans and almost all other organisms. Most of these observed rhythms reflect both underlying endogenous circadian rhythms and evoked responses from behaviours such as sleep/wake, eating/fasting, rest/activity, posture changes and exercise. For many research and clinical purposes, it is important to understand the contribution of the endogenous circadian component to these observed rhythms. CONTENT: The goal of this manuscript is to provide guidance on best practices in measuring metrics of endogenous circadian rhythms in humans and promote the inclusion of circadian rhythms assessments in studies of health and disease. Circadian rhythms affect all aspects of physiology. By specifying minimal experimental conditions for studies, we aim to improve the quality, reliability and interpretability of research into circadian and daily (i.e., time-of-day) rhythms and facilitate the interpretation of clinical and translational findings within the context of human circadian rhythms. We describe protocols, variables and analyses commonly used for studying human daily rhythms, including how to assess the relative contributions of the endogenous circadian system and other daily patterns in behaviours or the environment. We conclude with recommendations for protocols, variables, analyses, definitions and examples of circadian terminology. CONCLUSION: Although circadian rhythms and daily effects on health outcomes can be challenging to distinguish in practice, this distinction may be important in many clinical settings. Identifying and targeting the appropriate underlying (patho)physiology is a medical goal. This review provides methods for identifying circadian effects to aid in the interpretation of published work and the inclusion of circadian factors in clinical research and practice.

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Идентификаторы

DOI: 10.1002/ctm2.1131

Цитирования и источники

Цитирований: 2Использованных источников: 0

Показатели — AkademScholar