TY - JOUR
T1 - The effects of fasting compared to eating a meal or snack during simulated night shift on changes in metabolism associated with circadian misalignment
T2 - a protocol and methods paper
AU - Yates, Crystal L.
AU - Centofanti, Stephanie
AU - Heilbronn, Leonie
AU - Kennaway, David
AU - Coates, Alison M.
AU - Dorrian, Jillian
AU - Wittert, Gary
AU - Gupta, Charlotte C.
AU - Stepien, Jacqueline M.
AU - Catcheside, Peter
AU - Banks, Siobhan
N1 - Publisher Copyright:
© The Author(s) 2024.
PY - 2024/4/11
Y1 - 2024/4/11
N2 - Study Objectives: This protocol paper outlines the methods that will be used to examine the impact of altering meal timing on metabolism, cognitive performance, and mood during the simulated night shift. Methods: Participants (male and female) will be recruited according to an a priori selected sample size to complete a 7-day within and between participant's laboratory protocol. Participants will be randomly assigned to one of the three conditions: meal at night or snack at night or no meal at night. This protocol includes an 8-hour nighttime baseline sleep, followed by 4 consecutive nights of simulated nightshift (7 hours day sleep; 10:00-17:00 hours), and an 8-hour nighttime sleep (return to dayshift). During the simulated night shift, meals will be provided at ~06:30, 09:30, 14:10, and 19:00 hours (no eating at night); ~06:30, 19:00, and 00:30 hours (meal at night); or ~06:30, 14:10, 19:00, and 00:30 hours (snack at night). Meal composition will be strictly controlled throughout the study (45%-65% carbohydrates, 15%-25% protein, and 20%-35% fat per day) with daily energy provided to meet individual needs using the Harris-Benedict equation (light/sedentary activity). The primary outcome measures are serum concentrations of blood glucose, insulin, and free fatty acids area under the curve in response to the oral glucose tolerance test. Mixed-effect ANOVAs will be conducted. Conclusions: This protocol paper describes a methodology to describe an innovative approach to reduce the metabolic disease impact associated with shift work.
AB - Study Objectives: This protocol paper outlines the methods that will be used to examine the impact of altering meal timing on metabolism, cognitive performance, and mood during the simulated night shift. Methods: Participants (male and female) will be recruited according to an a priori selected sample size to complete a 7-day within and between participant's laboratory protocol. Participants will be randomly assigned to one of the three conditions: meal at night or snack at night or no meal at night. This protocol includes an 8-hour nighttime baseline sleep, followed by 4 consecutive nights of simulated nightshift (7 hours day sleep; 10:00-17:00 hours), and an 8-hour nighttime sleep (return to dayshift). During the simulated night shift, meals will be provided at ~06:30, 09:30, 14:10, and 19:00 hours (no eating at night); ~06:30, 19:00, and 00:30 hours (meal at night); or ~06:30, 14:10, 19:00, and 00:30 hours (snack at night). Meal composition will be strictly controlled throughout the study (45%-65% carbohydrates, 15%-25% protein, and 20%-35% fat per day) with daily energy provided to meet individual needs using the Harris-Benedict equation (light/sedentary activity). The primary outcome measures are serum concentrations of blood glucose, insulin, and free fatty acids area under the curve in response to the oral glucose tolerance test. Mixed-effect ANOVAs will be conducted. Conclusions: This protocol paper describes a methodology to describe an innovative approach to reduce the metabolic disease impact associated with shift work.
KW - meal timing
KW - metabolism
KW - nightshift
KW - shiftwork
UR - http://www.scopus.com/inward/record.url?scp=85201010321&partnerID=8YFLogxK
U2 - 10.1093/sleepadvances/zpae021
DO - 10.1093/sleepadvances/zpae021
M3 - Article
AN - SCOPUS:85201010321
SN - 2632-5012
VL - 5
JO - SLEEP Advances
JF - SLEEP Advances
IS - 1
M1 - zpae021
ER -