Changes in children’s sleep and physical activity during a 1-week versus a 3-week break from school: a natural experiment

Study Objectives To examine changes in elementary aged children's sleep and physical activity during a 1-week and a 3-week school break. Methods Sleep and physical activity of elementary children (n = 154, age = 5-9 years, 44.8% female, 65.5% African American) were collected over 7 weeks that included a 1-week break in two schools and a 3-week break in a single school. Mixed regression models estimated sleep and physical activity changes within and between groups (i.e. 1-week vs. 3-weeks) during school and school break weeks. Results Compared to school weeks, bed times shifted 72.7 (95% CI = 57.5, 87.9) and 75.4 (95% CI = 58.1, 92.7) minutes later on weekdays during the 1-week and 3-week break, respectively. Wake times shifted 111.6 (95% CI = 94.3, 128.9) and 99.8 (95% CI = 80.5, 119.1) minutes later on weekdays during 1-week and 3-week breaks. On weekdays during the 3-week break, children engaged in 33.1 (95% CI = 14.1, 52.2) more sedentary minutes and -12.2 (-20.2, -4.2) fewer moderate-to-vigorous physical activity minutes/day. No statistically significant changes in children's sedentary, light, or moderate-to-vigorous physical activity (MVPA) minutes were observed on weekdays during the 1-week break. Between-group differences in the change in time sedentary (32.1-95% CI = 5.8, 58.4), and moderate-to-vigorous (-13.0-95% CI = -23.9, -2.0) physical activity were observed. Conclusions Children's sleep shifted later on both 1-week and 3-week breaks. Children's activity changed minimally on weekdays during a 1-week school break and more during a 3-week school break. Displaced sleep and reductions in activity are intervention targets for mitigating unhealthy weight gain during extended breaks from school.

[1]  S. Lark,et al.  Sleep and Adiposity in Preadolescent Children: The Importance of Social Jetlag. , 2018, Childhood obesity.

[2]  Job G. Godino,et al.  Measures of sleep and cardiac functioning during sleep using a multi-sensory commercially-available wristband in adolescents , 2016, Physiology & Behavior.

[3]  J. Hannon,et al.  Effect of a 12-Week Summer Break on School Day Physical Activity and Health-Related Fitness in Low-Income Children from CSPAP Schools , 2017, Journal of environmental and public health.

[4]  G. Murray,et al.  Actigraphy‐assessed sleep during school and vacation periods: a naturalistic study of restricted and extended sleep opportunities in adolescents , 2014, Journal of sleep research.

[5]  K. Janz Validation of the CSA accelerometer for assessing children's physical activity. , 1994, Medicine and science in sports and exercise.

[6]  A. Sadeh,et al.  Estimating sleep patterns with activity monitoring in children and adolescents: how many nights are necessary for reliable measures? , 1999, Sleep.

[7]  H. Koplewicz,et al.  Sleep problems of elementary school children. A community survey. , 1997, Archives of pediatrics & adolescent medicine.

[8]  Vincent Onywera,et al.  Improving wear time compliance with a 24-hour waist-worn accelerometer protocol in the International Study of Childhood Obesity, Lifestyle and the Environment (ISCOLE) , 2015, International Journal of Behavioral Nutrition and Physical Activity.

[9]  I. Janssen Sleep Duration or Bedtime? Exploring the Relationship between Sleep Habits and Weight Status and Activity Patterns , 2012 .

[10]  B. Penninx,et al.  Social jetlag and depression status: Results obtained from the Netherlands Study of Depression and Anxiety , 2018, Chronobiology international.

[11]  C B Corbin,et al.  The validity of the Tritrac-R3D Activity Monitor for the assessment of physical activity in children. , 1995, Research quarterly for exercise and sport.

[12]  J. Spence,et al.  Seasonal variation in physical activity among children and adolescents: a review. , 2010, Pediatric exercise science.

[13]  T. Baranowski,et al.  Seasonal variability in weight change during elementary school , 2015, Obesity.

[14]  T. Arora,et al.  Associations among late chronotype, body mass index and dietary behaviors in young adolescents , 2014, International Journal of Obesity.

[15]  A. Rissanen,et al.  Breakfast skipping and health-compromising behaviors in adolescents and adults , 2003, European Journal of Clinical Nutrition.

[16]  C. Drake,et al.  Beyond Sleep Duration: Distinct Sleep Dimensions are Associated with Obesity in Children and Adolescent’s , 2013, International Journal of Obesity.

[17]  James A Levine,et al.  Changing the School Environment to Increase Physical Activity in Children , 2008, Obesity.

[18]  N. Wareham,et al.  Use of accelerometers in a large field-based study of children: protocols, design issues, and effects on precision. , 2008, Journal of physical activity & health.

[19]  A. Kong,et al.  The Effect of Weekend and Holiday Sleep Compensation on Childhood Overweight and Obesity , 2009, Pediatrics.

[20]  D. P. O'connor,et al.  Association between the summer season and body fatness and aerobic fitness among Hispanic children. , 2014, The Journal of school health.

[21]  J. Dorrian,et al.  Changes in growth and sleep across school nights, weekends and a winter holiday period in two Australian schools , 2018, Chronobiology international.

[22]  A. Goldstone,et al.  A validation study of Fitbit Charge 2™ compared with polysomnography in adults , 2018, Chronobiology international.

[23]  Sarah N. Biggs,et al.  Establishing normal values for pediatric nighttime sleep measured by actigraphy: a systematic review and meta-analysis , 2018, Sleep.

[24]  T. Bernard,et al.  Continuous heart rate monitoring over 1 week in teenagers aged 11–16 years , 1997, European Journal of Applied Physiology and Occupational Physiology.

[25]  C. Johnston,et al.  Changes in weight over the school year and summer vacation: results of a 5-year longitudinal study. , 2013, The Journal of school health.

[26]  Larry Webber,et al.  Weekend and Weekday Patterns of Physical Activity in Overweight and Normal‐weight Adolescent Girls , 2007, Obesity.

[27]  Michael W. Beets,et al.  Understanding differences between summer vs. school obesogenic behaviors of children: the structured days hypothesis , 2017, International Journal of Behavioral Nutrition and Physical Activity.

[28]  A. Staiano,et al.  School Term vs. School Holiday: Associations with Children’s Physical Activity, Screen-Time, Diet and Sleep , 2015, International journal of environmental research and public health.

[29]  P. V. von Hippel,et al.  From Kindergarten Through Second Grade, U.S. Children's Obesity Prevalence Grows Only During Summer Vacations , 2016, Obesity.

[30]  Diane J Catellier,et al.  Design of the Trial of Activity in Adolescent Girls (TAAG). , 2005, Contemporary clinical trials.

[31]  J. Sirard,et al.  Examination of Changes in Youth Diet and Physical Activity Over the Summer Vacation Period , 2013, Internet Journal of Allied Health Sciences and Practice.

[32]  J. Goldsmith,et al.  Weight-related behaviors when children are in school versus on summer breaks: does income matter? , 2015, The Journal of school health.

[33]  H. Stam,et al.  Exercise capacity in Dutch children: new reference values for the Bruce treadmill protocol , 2010, Scandinavian journal of medicine & science in sports.

[34]  K. Adamo,et al.  Later Bedtime is Associated with Greater Daily Energy Intake and Screen Time in Obese Adolescents Independent of Sleep Duration , 2013 .

[35]  M. Puyau,et al.  Relations of Parental Obesity Status to Physical Activity and Fitness of Prepubertal Girls , 2000, Pediatrics.

[36]  J F Sallis,et al.  The effects of a 2-year physical education program (SPARK) on physical activity and fitness in elementary school students. Sports, Play and Active Recreation for Kids. , 1997, American journal of public health.

[37]  J. Sallis,et al.  The Caltrac accelerometer as a physical activity monitor for school-age children. , 1990, Medicine and science in sports and exercise.

[38]  T S Church,et al.  Reliability of accelerometer-determined physical activity and sedentary behavior in school-aged children: a 12-country study. , 2015, International journal of obesity supplements.

[39]  Nicholas J. Rowland,et al.  The effect of school on overweight in childhood: gain in body mass index during the school year and during summer vacation. , 2007, American journal of public health.

[40]  Emily K. Snell,et al.  Sleep and the body mass index and overweight status of children and adolescents. , 2007, Child development.

[41]  Michael W. Beets,et al.  Classification of physical activity intensities using a wrist‐worn accelerometer in 8–12‐year‐old children , 2016, Pediatric obesity.

[42]  Zilu Liang,et al.  Validity of Consumer Activity Wristbands and Wearable EEG for Measuring Overall Sleep Parameters and Sleep Structure in Free-Living Conditions , 2018, Journal of Healthcare Informatics Research.

[43]  T. Tabuchi,et al.  Association between skipping breakfast in parents and children and childhood overweight/obesity among children: a nationwide 10.5-year prospective study in Japan , 2018, International Journal of Obesity.

[44]  T. Olds,et al.  Sleep duration or bedtime? Exploring the relationship between sleep habits and weight status and activity patterns. , 2011, Sleep.

[45]  C. Wild,et al.  Short sleep duration in middle childhood: risk factors and consequences. , 2008, Sleep.

[46]  B. Simons-Morton,et al.  Validity of the physical activity interview and Caltrac with preadolescent children. , 1994, Research quarterly for exercise and sport.

[47]  T. Olds,et al.  Sleep duration or bedtime? Exploring the association between sleep timing behaviour, diet and BMI in children and adolescents , 2013, International Journal of Obesity.

[48]  Man-Gyoon Lee,et al.  Effects of summer school participation and psychosocial outcomes on changes in body composition and physical fitness during summer break , 2015, Journal of exercise nutrition & biochemistry.

[49]  David Gozal,et al.  Sleep Duration, Sleep Regularity, Body Weight, and Metabolic Homeostasis in School-aged Children , 2011, Pediatrics.

[50]  T. Baranowski,et al.  Obesity status trajectory groups among elementary school children , 2016, BMC Public Health.

[51]  S. Redline,et al.  Sleep behavior in an urban US sample of school-aged children. , 2004, Archives of pediatrics & adolescent medicine.