Abstract
The Antarctic environment presents an extreme variation in the natural light-dark cycle which can cause variability in the alignment of the circadian pacemaker with the timing of sleep, causing sleep disruption, and impaired mood and performance. This study assessed the incidence of circadian misalignment and the consequences for sleep, cognition, and psychological health in 51 over-wintering Antarctic expeditioners (45.6 ± 11.9 years) who completed daily sleep diaries, and monthly performance tests and psychological health questionnaires for 6 months. Circadian phase was assessed via monthly 48-h urine collections to assess the 6-sulphatoxymelatonin (aMT6s) rhythm. Although the average individual sleep duration was 7.2 ± 0.8 h, there was substantial sleep deficiency with 41.4% of sleep episodes <7 h and 19.1% <6 h. Circadian phase was highly variable and 34/50 expeditioners had sleep episodes that occurred at an abnormal circadian phase (acrophase outside of the sleep episode), accounting for 18.8% (295/1565) of sleep episodes. Expeditioners slept significantly less when misaligned (6.1 ± 1.3 h), compared with when aligned (7.3 ± 1.0 h; p <.0001). Performance and mood were worse when awake closer to the aMT6s peak and with increased time awake (all p <.0005). This research highlights the high incidence of circadian misalignment in Antarctic over-wintering expeditioners. Similar incidence has been observed in long-duration space flight, reinforcing the fidelity of Antarctica as a space analog. Circadian misalignment has considerable safety implications, and potentially longer term health risks for other circadian-controlled physiological systems. This increased risk highlights the need for preventative interventions, such as proactively planned lighting solutions, to ensure circadian alignment during long-duration Antarctic and space missions.
Original language | English |
---|---|
Article number | e12817 |
Number of pages | 17 |
Journal | Journal of Pineal Research |
Volume | 73 |
Issue number | 2 |
DOIs | |
Publication status | Published - Sept 2022 |
Keywords
- Antarctica
- circadian
- melatonin
- performance
- sleep
- space analog
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In: Journal of Pineal Research, Vol. 73, No. 2, e12817, 09.2022.
Research output: Contribution to journal › Article › Research › peer-review
TY - JOUR
T1 - The role of circadian phase in sleep and performance during Antarctic winter expeditions
AU - Sletten, Tracey L.
AU - Sullivan, Jason P.
AU - Arendt, Josephine
AU - Palinkas, Lawrence A.
AU - Barger, Laura K.
AU - Fletcher, Lloyd
AU - Arnold, Malcolm
AU - Wallace, Jan
AU - Strauss, Clive
AU - Baker, Richard J.S.
AU - Kloza, Kate
AU - Kennaway, David J.
AU - Rajaratnam, Shantha M.W.
AU - Ayton, Jeff
AU - Lockley, Steven W.
N1 - Funding Information: The authors thank all of the Australian Antarctic expeditioner research participants for their willingness to undertake such comprehensive data collection. The authors thank James Cartreine, PhD, James Locke, MD, MS, and Christian Otto, MD for their consultative contributions to the initial funding application; Sue Hillam for her assistance in coordinating the transport of data collection equipment within the Australian Antarctic Division; and Mark Salkeld and the Adelaide Research Assay Facility, Robinson Institute, University of Adelaide for performing the assays. The authors thank Johneric Cedeño, Anna Clark, Kaitlyn Crocker, Marc Jurblum, Jessica Manousakis, Ambar Mena, Niamh McDonald, Megan Mulhall, Oscar Murphy, Kevin Tong, Elizabeth Stewart, and Leslie Torres Ulloa for their efforts with data cleaning. The study was supported by NASA Headquarters Moon and Mars Analog Mission Activities 2008 Research Opportunities in Space and Earth Sciences (ROSES) Planetary Science Division Research Program grant to SW Lockley (08-MMAMA08-0035). Additional support was provided by the NHMRC Centre for Integrated Research and Understanding of Sleep (CIRUS) and the Australian Antarctic Division. TL Sletten was also supported by the Australasian Sleep Association Helen Bearpark Scholarship. J Sullivan and LK Barger were supported in part by R01OH011773. Open access publishing facilitated by Monash University, as part of the Wiley - Monash University agreement via the Council of Australian University Librarians. Funding Information: The authors thank all of the Australian Antarctic expeditioner research participants for their willingness to undertake such comprehensive data collection. The authors thank James Cartreine, PhD, James Locke, MD, MS, and Christian Otto, MD for their consultative contributions to the initial funding application; Sue Hillam for her assistance in coordinating the transport of data collection equipment within the Australian Antarctic Division; and Mark Salkeld and the Adelaide Research Assay Facility, Robinson Institute, University of Adelaide for performing the assays. The authors thank Johneric Cedeño, Anna Clark, Kaitlyn Crocker, Marc Jurblum, Jessica Manousakis, Ambar Mena, Niamh McDonald, Megan Mulhall, Oscar Murphy, Kevin Tong, Elizabeth Stewart, and Leslie Torres Ulloa for their efforts with data cleaning. The study was supported by NASA Headquarters Moon and Mars Analog Mission Activities 2008 Research Opportunities in Space and Earth Sciences (ROSES) Planetary Science Division Research Program grant to SW Lockley (08‐MMAMA08‐0035). Additional support was provided by the NHMRC Centre for Integrated Research and Understanding of Sleep (CIRUS) and the Australian Antarctic Division. TL Sletten was also supported by the Australasian Sleep Association Helen Bearpark Scholarship. J Sullivan and LK Barger were supported in part by R01OH011773. Open access publishing facilitated by Monash University, as part of the Wiley ‐ Monash University agreement via the Council of Australian University Librarians. Funding Information: Tracey L. Sletten reports her institution has received equipment donations or other support from Philips Lighting, Philips Respironics, Optalert™ and Compumedics. Dr. Sletten served as a Project Leader in the Cooperative Research Centre for Alertness, Safety, and Productivity. Laura K. Barger reports consulting fees from the University of Pittsburgh, CASIS, Puget Sound Pilots, the Centers for Disease Control and Prevention, Boston Children's Hospital, and Charles Czeisler. Shantha M.W. Rajaratnam reports that he has served as a consultant through his institution to Vanda Pharmaceuticals, Philips Respironics, EdanSafe, The Australian Workers' Union, National Transport Commission, and Transport Accident Commission, and has through his institution received research grants and/or unrestricted educational grants from Vanda Pharmaceuticals, Takeda Pharmaceuticals North America, Philips Lighting, Philips Respironics, Cephalon, and ResMed Foundation, and reimbursements for conference travel expenses from Vanda Pharmaceuticals. His institution has received equipment donations or other support from Optalert™, Compumedics, and Tyco Healthcare. He has also served as an expert witness and/or consultant to shift work organizations. Dr. Rajaratnam served as a Program Leader in the Cooperative Research Centre for Alertness, Safety, and Productivity. Jeff Ayton reports he serves as Chief Medical Officer and Program Lead for human biology and medicine research for the Australian Antarctic Program responsible for the health and medical care of participants in the study. Steven W. Lockley reports commercial interests from the last 3 years (2018‐2021). His interests are reviewed and managed by Brigham and Women's Hospital and Partners HealthCare in accordance with their conflict of interest policies. No interests are directly related to the research or topic reported in this paper but, in the interests of full disclosure, are outlined below. Steven W. Lockley has received consulting fees from BHP Billiton, EyeJust Inc., Noble Insights, Rec Room, Six Senses, Stantec, and Team C Racing; and has current consulting contracts with Akili Interactive; Apex 2100 Ltd.; Consumer Sleep Solutions; Headwaters Inc.; Hintsa Performance AG; KBR Wyle Services, Light Cognitive; Lighting Science Group corporation/HealthE; Mental Workout/Timeshifter and View Inc. He has received honoraria and travel or accommodation expenses from Bloxhub, Emory University, Estée Lauder, Ineos, MIT, Roxbury Latin School, and the University of Toronto, and travel or accommodation expenses (no honoraria) from IES, Mental Workout, Solemma, and Wiley; and royalties from Oxford University Press. He holds equity in iSleep pty. He has received an unrestricted equipment gift from F. Lux Software LLC, a fellowship gift from Stockgrand Ltd and holds an investigator‐initiated grant from F. Lux Software LLC, and a Clinical Research Support Agreement and Clinical Trial Agreement with Vanda Pharmaceuticals Inc. He is an unpaid Board Member of the Midwest Lighting Institute (non‐profit). He was a Program Leader for the CRC for Alertness, Safety and Productivity, Australia, through an adjunct professor position at Monash University (2015‐2019). He is a part‐time adjunct professor at the University of Surrey, UK. He holds patents for “Display screen or portion thereof with graphical user interface” (US USD897362S1, 2020, Published), “Method and system for generating and providing notifications for a circadian shift protocol” (US20190366032A1, pending), and “Method to shift circadian rhythm responsive to future therapy” (US 20210162164, 2021, pending). He has served as a paid expert in legal proceedings related to light, sleep, shiftwork, and health. The remaining authors declare no conflict of interest. Publisher Copyright: © 2022 The Authors. Journal of Pineal Research published by John Wiley & Sons Ltd.
PY - 2022/9
Y1 - 2022/9
N2 - The Antarctic environment presents an extreme variation in the natural light-dark cycle which can cause variability in the alignment of the circadian pacemaker with the timing of sleep, causing sleep disruption, and impaired mood and performance. This study assessed the incidence of circadian misalignment and the consequences for sleep, cognition, and psychological health in 51 over-wintering Antarctic expeditioners (45.6 ± 11.9 years) who completed daily sleep diaries, and monthly performance tests and psychological health questionnaires for 6 months. Circadian phase was assessed via monthly 48-h urine collections to assess the 6-sulphatoxymelatonin (aMT6s) rhythm. Although the average individual sleep duration was 7.2 ± 0.8 h, there was substantial sleep deficiency with 41.4% of sleep episodes <7 h and 19.1% <6 h. Circadian phase was highly variable and 34/50 expeditioners had sleep episodes that occurred at an abnormal circadian phase (acrophase outside of the sleep episode), accounting for 18.8% (295/1565) of sleep episodes. Expeditioners slept significantly less when misaligned (6.1 ± 1.3 h), compared with when aligned (7.3 ± 1.0 h; p <.0001). Performance and mood were worse when awake closer to the aMT6s peak and with increased time awake (all p <.0005). This research highlights the high incidence of circadian misalignment in Antarctic over-wintering expeditioners. Similar incidence has been observed in long-duration space flight, reinforcing the fidelity of Antarctica as a space analog. Circadian misalignment has considerable safety implications, and potentially longer term health risks for other circadian-controlled physiological systems. This increased risk highlights the need for preventative interventions, such as proactively planned lighting solutions, to ensure circadian alignment during long-duration Antarctic and space missions.
AB - The Antarctic environment presents an extreme variation in the natural light-dark cycle which can cause variability in the alignment of the circadian pacemaker with the timing of sleep, causing sleep disruption, and impaired mood and performance. This study assessed the incidence of circadian misalignment and the consequences for sleep, cognition, and psychological health in 51 over-wintering Antarctic expeditioners (45.6 ± 11.9 years) who completed daily sleep diaries, and monthly performance tests and psychological health questionnaires for 6 months. Circadian phase was assessed via monthly 48-h urine collections to assess the 6-sulphatoxymelatonin (aMT6s) rhythm. Although the average individual sleep duration was 7.2 ± 0.8 h, there was substantial sleep deficiency with 41.4% of sleep episodes <7 h and 19.1% <6 h. Circadian phase was highly variable and 34/50 expeditioners had sleep episodes that occurred at an abnormal circadian phase (acrophase outside of the sleep episode), accounting for 18.8% (295/1565) of sleep episodes. Expeditioners slept significantly less when misaligned (6.1 ± 1.3 h), compared with when aligned (7.3 ± 1.0 h; p <.0001). Performance and mood were worse when awake closer to the aMT6s peak and with increased time awake (all p <.0005). This research highlights the high incidence of circadian misalignment in Antarctic over-wintering expeditioners. Similar incidence has been observed in long-duration space flight, reinforcing the fidelity of Antarctica as a space analog. Circadian misalignment has considerable safety implications, and potentially longer term health risks for other circadian-controlled physiological systems. This increased risk highlights the need for preventative interventions, such as proactively planned lighting solutions, to ensure circadian alignment during long-duration Antarctic and space missions.
KW - Antarctica
KW - circadian
KW - melatonin
KW - performance
KW - sleep
KW - space analog
UR - http://www.scopus.com/inward/record.url?scp=85134671718&partnerID=8YFLogxK
U2 - 10.1111/jpi.12817
DO - 10.1111/jpi.12817
M3 - Article
C2 - 35833316
AN - SCOPUS:85134671718
SN - 0742-3098
VL - 73
JO - Journal of Pineal Research
JF - Journal of Pineal Research
IS - 2
M1 - e12817
ER -