Abstract
Background: Changes in lifestyle and increases in sedentary activities during recent decades have been shown to contribute to the prevalence of overweight in adolescents.
Objectives: To determine the inter-individual variability and the day-to-day variations in daily energy expenditure (DEE) and activity pattern, and the energy costs and EE of the various activities of adolescents in free-living conditions.
Design: Sixty adolescents (four groups of 14–16 boys or girls aged 12–16 y) participated in this cross-sectional study during spring or autumn. Activity patterns and EE were determined during five consecutive days, using both a diary and the heart rate recording method validated by whole-body calorimetry and laboratory tests.
Results: Mean DEE increased significantly with age in boys, but not in girls. However, the physical activity level did not vary significantly with sex and age. Mean DEE was significantly higher in spring than in autumn in the 12.6-y-old subjects. It was also 21% higher during the free days than during the schooldays in the active subjects, but 7% lower in the sedentary subjects. The energy cost of 22 activities was determined. Time and energy devoted to moderate and sport activities exhibited great inter-individual variability. They were lower in girls than in boys and decreased with age. The increase in EE resulting from moderate and sport activities instead of sedentary activities ranged from 0.2 to 2.7 MJ/day over the week.
Conclusion: The great variability in DEE of adolescents resulted mainly from differences in the nature, duration and intensity of physical activities during the free days.
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References
Amstrong N . 1998 Young peoples physical-activity patterns as assessed by heart-rate monitoring J. Sport Sci. 16: S9–S16
Armstrong N, Balding J, Gentle P, Kirby B . 1990 Patterns of physical activity among 11 to 16 y old British children Br. Med. J. 301: 203–205
Bandini LG, Schoeller DA, Dietz WH . 1990 Energy expenditure in obese and nonobese adolescents Pediatr. Res. 27: 198–203
Bitar A, Vermorel M, Fellmann N, Bedu M, Chamoux A, Coudert J . 1996 Heart rate recording method validated by whole-body indirect calorimetry in 10-y-old children J. Appl. Physiol. 81: 1169–1173
Bitar A, Fellmann N, Vernet J, Coudert J, Vermorel M . 1999 Variations and determinants of energy expenditure as measured by whole-body indirect calorimetry during puberty and adolescence Am. J. Clin. Nutr. 69: 1209–1216
Bouchard C, Tremblay A, Leblanc C, Lortie G, Savard R, Theriault G . 1983 A method to assess energy expenditure in children and adults Am. J. Clin. Nutr. 37: 461–467
Bratteby LE, Sandhagen BO, Lötborn M, Samuelson G . 1997a Daily energy expenditure and physical activity assessed by an activity diary in 374 randomly selected 15-year-old adolescents Eur. J. Clin. Nutr. 51: 592–600
Bratteby LE, Sandhagen B, Fan H, Samuelson G . 1997b A 7-day activity diary for assessment of daily energy expenditure validated by the doubly-labeled water method in adolescents Eur. J. Clin. Nutr. 51: 585–591
Bratteby LE, Sandhagen B, Fan H, Enghardt H, Samuelson G . 1998 Total energy expenditure and physical activity as assessed by the doubly-labeled water method in Swedish adolescents in whom energy intake was underestimated by 7-d diet records Am. J. Clin. Nutr. 67: 905–911
Brouwer E . 1965 Report of Sub-Committee on constants and factors In: Energy Metabolism ed. KL Blaxter, pp 441–443 EAAP publication 11 New York: Academic Press
Davies PSW, Livingstone MBE, Prentice AM, Coward WA, Jagger SE, Stewart C, Strain IJ, Whitehead RG . 1991 Total energy expenditure during childhood and adolescence Proc. Nutr. Soc. 50: 1–14A
Ekelund U, Sjöström M, Yngve A, Nilsson A . 2000 Total daily energy expenditure and pattern of physical activity measured by minute-by-minute heart rate monitoring in 14–15 y old Swedish adolescents Eur. J. Clin. Nutr. 54: 195–202
Goran MI, Nagy TR, Gower BA, Mazariegos M, Salomons N, Johnson R . 1998 Influence of sex, seasonality, ethnicity, and geographic location on the components of total energy expenditure in young children: implications for energy requirements Am. J. Clin. Nutr. 68: 675–682
Henry CJK, Webster, Gandy JD, Elia M . 1999 Physical activity levels in a sample of Oxford school children aged 10–13 y Eur. J. Clin. Nutr. 53: 840–843
Livingstone MBA, Coward WA, White JA, Stewart CM, Kerr MJJ . 1992 Daily energy expenditure in free-living children: comparison of the heart-rate monitoring with the doubly labeled water (2H218O) method Am. J. Clin. Nutr. 56: 343–352
Martinez JA . 2000 Obesity in young Europeans: genetic and environmental influences Eur. J. Clin. Nutr. 54: (Suppl 1): 56–60
Ribeyre J, Fellmann N, Vernet J, Delaitre M, Chamoux A, Coudert J, Vermorel M . 2000 Components and variations in daily energy expenditure of athletic and non-athletic adolscents in free-living conditions Br. J. Nutr. 84: 531–539
Ridocch CJ, Boreham . 1985 The health-related physical activity of children Sports Med. 19: 86–102
Roemmich JN, Clark PA, Mai V, Berr SS, Weltman A, Veldhuis JD, Rogol AD . 1998 Alterations in growth and body composition during puberty: III. Influence of maturation, gender, body composition, fat distribution, aerobic fitness, and energy expenditure on nocturnal growth hormone release J. Clin. Endocrinol. Metab. 83: 1440–1447
Rolland-Cachera MF, Colet J, Sempé M, Tichet J, Rossignol C, Charraud A . 1991 Body mass index variations: centiles from birth to 87 y Eur. J. Clin. Nutr. 45: 13–21
Rolland-achera MF, Bellisle F, Deheeger M . 2000 Nutritional status and food intake in adolescents living in Western Europe Eur. J. Clin. Nutr. 54: (Suppl 1): 41–46
Samuelson G . 2000 Dietary habits and nutritional status in adolescents over Europe. An overview of current studies in the Nordic countries Eur. J. Clin. Nutr. 54: (Suppl 1): 21–28
Schofield WN, Schofield C, James WPT . 1985 Predicting basal metabolic rate. New standards and review of previous work Hum. Nutr. Clin. Nutr. 39C: (Suppl): 5–41
Statistical Analysis System Institute Inc. 1987 SAS/STAT guide for personal computers, version 6. Cary, NC: SAS Institute Inc
Torun B, Davies PSW, Livingstone MBE, Paolisso M, Sackett R, Spurr GB . 1996 Energy requirements and dietary energy recommendations for children and adolescents 1 to 18 y old Eur. J. Clin. Nutr. 50: (Suppl 1): 537–581
Wong WW . 1994 Energy expenditure of female adolescents J. Am. Coll. Nutr. 13: 332–337
Acknowledgements
We are grateful to the adolescents who participated enthusiastically in this study, to their parents, and to the high school directors for their cooperation. We thank B Beaune for his expert contribution to the laboratory tests, A Chamoux for lending the sport testers and R Taylor for revising the English.
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Vermorel, M., Vernet, J., Bitar, A. et al. Daily energy expenditure, activity patterns, and energy costs of the various activities in French 12–16-y-old adolescents in free living conditions. Eur J Clin Nutr 56, 819–829 (2002). https://doi.org/10.1038/sj.ejcn.1601395
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DOI: https://doi.org/10.1038/sj.ejcn.1601395
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