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Bath MyoRhythms Project

  • Research type

    Research Study

  • Full title

    Bath MyoRhythms Project (BMP): Characterising Rhythmicity in Human Skeletal Muscle Metabolism

  • IRAS ID

    351053

  • Contact name

    Louise Bradshaw

  • Contact email

    lb2311@bath.ac.uk

  • Sponsor organisation

    University of Bath

  • Duration of Study in the UK

    2 years, 10 months, 29 days

  • Research summary

    Human Physiology is coordinated by a circadian timing system that synchronises daily cycles of light-dark, wake-sleep, activity-rest and feeding-fasting. The alignment of these behavioural patterns with underlying biological rhythms is closely linked to physiological function, with misalignment linked to chronic metabolic diseases.
    The vast majority of evidence about rhythms in metabolism comes from studies of rodents, which is remarkable given that rodents differ fundamentally from humans in both behaviour and metabolic regulation. Moreover, almost no research in any species has examined the effects of muscle contractile activity on 24-h rhythms in metabolism. Skeletal muscle is a key site of metabolic regulation and contractile activity is a powerful stimulus to increase metabolism. We have established a novel protocol for serial muscle sampling throughout 24 hours and pilot work completed in preparation for this grant revealed diurnal transcriptomic and lipidomic rhythms in human skeletal muscle. Our further development of that protocol has used enteral feeding via a tube which delivers nutrient directly to the stomach to enable constant nutrient delivery (including during sleep), with preliminary data indicating that underlying rhythms in metabolism are responsive to nutrient availability patterns.
    We will now capitalise on those findings by incorporating multiple isotope tracers within our protocol, thus finally documenting the nature of rhythmic flux in carbohydrate metabolism and protein turnover in human skeletal muscle, and how those rhythms are aligned with timing and patterns of exercise. In summary, participants will stay in the laboratory for 36 hours with 24 hours of constant feeding via nasogastric tube, and muscle and blood sampling. Participants will be allocated to either the early or late exercise group (involving 1 hour of cycling at either 0800 or 2000 h, respectively) or the control group who will rest for the 24 hours.

  • REC name

    Yorkshire & The Humber - Leeds West Research Ethics Committee

  • REC reference

    25/YH/0055

  • Date of REC Opinion

    21 Mar 2025

  • REC opinion

    Favourable Opinion

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