Have you ever felt sluggish and out of sorts after a long-haul flight or a late-night shift? A new study from the University of Surrey and the University of Aberdeen has found that disruptions to our body clock, such as those experienced during jetlag, impact our metabolism – but to a lesser extent than sleepiness and the primary clock in the brain.
Led by Professor Jonathan Johnston at the University of Surrey and Professor Alexandra Johnstone at the University of Aberdeen, the research involved a controlled experiment where participants experienced a 5-hour delay in their bedtime and mealtimes.
The study, published on iScience, highlights that the time shifts lead to:
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Reduced energy spent processing meals.
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Changes in blood sugar and fat levels.
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Slower release of breakfast contents from the stomach.
These metabolic effects were temporary, however, and mostly recovered within 2-3 days of the 5-hour time delay. This was in marked contrast to the main clock in the brain, plus feelings of sleepiness and alertness, which had not recovered within 5 days of the 5-hour time delay.
Professor Jonathan Johnston, Professor of Chronobiology and Integrative Physiology at the University of Surrey, said:
“Our research underscores the importance of maintaining a consistent sleep schedule, particularly in our fast-paced world in which long trips and shift work are ever so common. Even a small time shift can impact many aspects of metabolism, but it now seems that metabolic consequences of jetlag recover far more quickly than impairment of sleep and alertness. Understanding the impact of circadian rhythms on our health can help us make informed choices about our lifestyle. By optimising our sleep and eating patterns, we can improve our overall wellbeing.”
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Notes to editors
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Professor Jonathan Johnston is available for interview, please contact mediarelations@surrey.ac.uk to arrange.
Journal
iScience
Method of Research
Randomized controlled/clinical trial
Subject of Research
People
Article Title
Short-term changes in human metabolism following a 5-h delay of the light-dark and behavioral cycle
Article Publication Date
15-Nov-2024