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Timing of food intake during simulated night shift impacts glucose metabolism: A controlled study
journal contribution
posted on 2023-02-28, 00:02 authored by CL Grant, AM Coates, J Dorrian, DJ Kennaway, GA Wittert, LK Heilbronn, M Pajcin, C Della Vedova, Charlotte GuptaCharlotte Gupta, S BanksEating during the night may increase the risk for obesity and type 2 diabetes in shift workers. This study examined the impact of either eating or not eating a meal at night on glucose metabolism. Participants underwent four nights of simulated night work (SW1–4, 16:00–10:00 h, <50 lux) with a daytime sleep opportunity each day (10:00–16:00 h, <3 lux). Healthy males were assigned to an eating at night (NE; n = 4, meals; 07:00, 19:00 and 01:30 h) or not eating at night (NEN; n = 7, meals; 07:00 h, 09:30, 16:10 and 19:00 h) condition. Meal tolerance tests were conducted post breakfast on pre-night shift (PRE), SW4 and following return to day shift (RTDS), and glucose and insulin area under the curve (AUC) were calculated. Mixed-effects ANOVAs were used with fixed effects of condition and day, and their interactions, and a random effect of subject identifier on the intercept. Fasting glucose and insulin were not altered by day or condition. There were significant effects of day and condition × day (both p < 0.001) for glucose AUC, with increased glucose AUC observed solely in the NE condition from PRE to SW4 (p = 0.05) and PRE to RTDS (p < 0.001). There was also a significant effect of day (p = 0.007) but not condition × day (p = 0.825) for insulin AUC, with increased insulin from PRE to RTDS in both eating at night (p = 0.040) and not eating at night (p = 0.006) conditions. Results in this small, healthy sample suggest that not eating at night may limit the metabolic consequences of simulated night work. Further study is needed to explore whether matching food intake to the biological clock could reduce the burden of type 2 diabetes in shift workers. © 2017 Taylor & Francis Group, LLC.
History
Volume
34Issue
8Start Page
1003End Page
1013Number of Pages
11eISSN
1525-6073ISSN
0742-0528Location
EnglandPublisher
Taylor & FrancisPublisher DOI
Language
engPeer Reviewed
- Yes
Open Access
- No
Acceptance Date
2017-05-23External Author Affiliations
University of South Australia; University of AdelaideAuthor Research Institute
- Appleton Institute
Era Eligible
- Yes
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Print-ElectronicJournal
Chronobiology InternationalUsage metrics
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