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Relationship of physical activity and dietary habits with body mass index in the transition from childhood to adolescence: a 4-year longitudinal study

  • Leen Haerens (a1) (a2), Carine Vereecken (a1) (a3), Lea Maes (a3) and Ilse De Bourdeaudhuij (a2)
Abstract
AbstractObjective

To explore the relationship between several physical activity (PA) and dietary behaviours and BMI Z-score and to investigate the relationship between changes in these variables and in the BMI Z-score over a 4-year period from childhood to adolescence.

Design

Longitudinal study in which children were included in the fifth grade and measured for four consecutive years. Dietary and PA behaviours as well as height and weight were measured by means of self-reported validated questionnaires.

Setting

Fifty-nine Flemish elementary schools.

Subjects

The baseline sample consisted of 51·9 % boys and the mean age was 10 (sd 0·4) years. During the first measurement year (2002), data on 1670 fifth graders were gathered. These measurements were repeated after 1 (n 1557), 2 (n 1151) and 3 (n 807) years.

Results

Significant inverse relationships with BMI Z-score were observed for frequency of breakfast consumption (β = −0·033, se = 0·012) and frequency of sports participation (β = −0·011, se = 0·004) across four time points. Significant inverse relationships between changes in BMI Z-score and changes in frequency of sports participation (β = −0·011, se = 0·006) and hours of physical education (PE; β = −0·052, se = 0·023) were observed, meaning that decreases in sports participation and hours spent in PE were associated with increases in BMI Z-score.

Conclusions

The present study provides an important insight into different dietary and PA behaviours related to (changes in) BMI Z-score during the transition from childhood to adolescence.

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Corresponding author
*Corresponding author: Email Leen.Haerens@UGent.be
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2.NF Butte , E Christiansen & TIA Sorensen (2007) Energy imbalance underlying the development of childhood obesity. Obesity 15, 30563066.

3.J Hill (2004) Physical activity and obesity. Lancet 363, 182.

4.D Demory-Luce , M Morales , T Nicklas (2004) Changes in food group consumption patterns from childhood to young adulthood: the Bogalusa Heart Study. J Am Diet Assoc 104, 16841691.

5.SY Kimm , NW Glynn , E Obarzanek (2005) Relation between the changes in physical activity and body-mass index during adolescence: a multicentre longitudinal study. Lancet 366, 301307.

6.LA Lytle , S Seifert , J Greenstein (2000) How do children’s eating patterns and food choices change over time? Results from a cohort study. Am J Health Promot 14, 222228.

8.M Windle , JA Grunbaum , M Elliott (2004) Healthy passages – A multilevel, multimethod longitudinal study of adolescent health. Am J Prev Med 27, 164172.

9.MM Driskell , S Dyment , L Mauriello (2008) Relationships among multiple behaviors for childhood and adolescent obesity prevention. Prev Med 46, 209215.

12.DS Ludwig , KE Peterson & SL Gortmaker (2001) Relation between consumption of sugar-sweetened drinks and childhood obesity: a prospective, observational analysis. Lancet 357, 505508.

13.JO Hill & JC Peters (1998) Environmental contributions to the obesity epidemic. Science 280, 13711374.

14.SJ Biddle , T Gorely & DJ Stensel (2004) Health-enhancing physical activity and sedentary behaviour in children and adolescents. J Sports Sci 22, 679701.

15.KJ Joshipura , A Ascherio , JE Manson (1999) Fruit and vegetable intake in relation to risk of ischemic stroke. JAMA 282, 12331239.

16.S Johnson (2004) Intake of fruit and vegetables and risk of stroke: an overview. Curr Opin Clin Nutr Metab Care 7, 665670.

18.AR Ness & JW Powles (1997) Fruit and vegetables, and cardiovascular disease: a review. Int J Epidemiol 26, 113.

19.BA Barton , AL Eldridge , D Thompson (2005) The relationship of breakfast and cereal consumption to nutrient intake and body mass index: the National Heart, Lung, and Blood Institute Growth and Health Study. J Am Diet Assoc 105, 13831389.

20.K Resnicow (1991) The relationship between breakfast habits and plasma cholesterol levels in schoolchildren. J Sch Health 61, 8185.

21.TA Nicklas , A McQuarrie , C Fastnaught (2002) Efficiency of breakfast consumption patterns of ninth graders: nutrient-to-cost comparisons. J Am Diet Assoc 102, 226233.

22.SM Gross , Y Bronner , C Welch (2004) Breakfast and lunch meal skipping patterns among fourth-grade children from selected public schools in urban, suburban, and rural Maryland. J Am Diet Assoc 104, 420423.

23.TA Nicklas , L Myers , C Reger (1998) Impact of breakfast consumption on nutritional adequacy of the diets of young adults in Bogalusa, Louisiana: ethnic and gender contrasts. J Am Diet Assoc 98, 14321438.

25.RM Philippaerts , L Matton , K Wijndaele (2006) Validity of a physical activity computer questionnaire in 12- to 18 year old boys and girls. Int J Sports Med 27, 131136.

26.L Haerens , I De Bourdeaudhuij , L Maes (2007) School based randomized controlled trial of a physical activity intervention among adolescents. J Adolesc Health 40, 258265.

27.L Haerens , B Deforche , C Vandelanotte (2007) Acceptability, feasibility and effectiveness of a computer-tailored physical activity intervention in adolescents. Patient Educ Couns 66, 303310.

30.TJ Cole & PJ Green (1992) Smoothing reference centile curves: the LMS method and penalized likelihood. Stat Med 11, 13051319.

32.PK Newby (2009) Plant foods and plant-based diets: protective against childhood obesity? Am J Clin Nutr 89, S1572S1587.

33.AM Albertson , DL Franko , D Thompson (2007) Longitudinal patterns of breakfast eating in black and white adolescent girls. Obesity 15, 22822292.

34.G Savige , A MacFarlane , K Ball (2007) Snacking behaviours of adolescents and their association with skipping meals. Int J Behav Nutr 4, 36.

35.A Must & DJ Tybor (2005) Physical activity and sedentary behaviour: a review of longitudinal studies of weight and adiposity in youth. Int J Obes 29, Suppl. 2, S84S96.

36.KC Harris , LK Kuramoto , M Schulzer & JE Retallack (2009) Effect of school-based physical activity interventions on body mass index in children: a meta-analysis. CMAJ 180, 719726.

37.CB Corbin (2002) Physical education as an agent of change. Quest 54, 182195.

38.JF Sallis & TL McKenzie (1991) Physical education role in public health. Res Q Exerc Sport 62, 124137.

39.G Stratton (1997) Children’s heart rate during British physical education lessons. J Teach Phys Educ 16, 357367.

41.AC Sollerhed & G Ejlertsson (2008) Physical benefits of expanded physical education in primary school: findings from a 3-year intervention study in Sweden. Scand J Med Sci Sports 18, 102107.

42.I Janssen , PT Katzmarzyk , WF Boyce (2005) Comparison of overweight and obesity prevalence in school-aged youth from 34 countries and their relationships with physical activity and dietary patterns. Obes Rev 6, 123132.

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Public Health Nutrition
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