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Article |

Short-term Effects of School-Based Weight Gain Prevention Among Adolescents FREE

Amika Sonja Singh, MSc; Marijke Jeannette Maidy Chin A Paw, PhD; Johannes Brug, PhD; Willem van Mechelen, MD, PhD
[+] Author Affiliations

Author Affiliations: EMGO Institute, Department of Public and Occupational Health, VU University Medical Center, Amsterdam (Ms Singh and Drs Chin A Paw and van Mechelen), and Department of Public Health, Erasmus University Medical Centre Rotterdam, Rotterdam (Dr Brug), the Netherlands.


Arch Pediatr Adolesc Med. 2007;161(6):565-571. doi:10.1001/archpedi.161.6.565.
Text Size: A A A
Published online

Objective  To determine whether a multicomponent health promotion intervention for Dutch adolescents would be successful in influencing body composition and aerobic fitness.

Design  Randomized controlled trial.

Setting  Ten intervention and 8 control prevocational secondary schools.

Participants  A total of 978 adolescents (mean age, 12.7 years).

Intervention  An interdisciplinary multicomponent intervention program with an adapted curriculum for 11 biology and physical education lessons and environmental change options, including additional lessons on physical education and advice on the school canteen selection.

Main Outcome Measures  Body height and weight, hip and waist circumference, 4 skinfold thickness measurements, and aerobic fitness.

Results  Multilevel analyses showed significant differences in changes after the 8-month intervention period in favor of the intervention group with regard to hip circumference (mean difference, 0.53 cm; 95% confidence interval, 0.07 to 0.98) and sum of skinfolds among girls (mean difference, −2.31 mm; 95% confidence interval, −4.34 to −0.28). In boys, the intervention resulted in a significant difference in waist circumference (mean difference, −0.57 cm; 95% confidence interval, −1.10 to −0.05). No significant intervention effects were found related to aerobic fitness.

Conclusions  The multicomponent Dutch Obesity Intervention in Teenagers program positively influenced several measures of body composition among both girls and boys. Our results indicate that secondary prevocational school curriculum changes may contribute to excessive weight gain prevention among adolescents.

Figures in this Article

In the last decade, several international reports13 have addressed the significant increase in the prevalence of overweight and obesity among children and adolescents. Invariably, they underline the importance of developing effective, population-based preventive measures, specifically targeting the lower socioeconomic part ofthe population. It is generally accepted that both sides of the energy balance, that is, dietary and physical activity behavior, should be considered for a prevention program to have optimal effects.4 In addition, it is agreed that changing health behavior in the longer term requires intervention programs that focus not only on the individual but also on the environment.5 Still, results of school-based intervention programs have not enabled us to clearly distinguish effective interventions from those that are not effective.6

Several characteristics of the adolescent life phase render it particularly appropriate for an intervention aimed at preventing overweight and obesity. First, treatment of overweight and establishing behavioral changes in adults are difficult and often not effective or feasible, especially in the longer term.7 Second, longitudinal data suggest that the probability of children and adolescents with a high body mass index (BMI) (calculated as weight in kilograms divided by the square of height in meters) still being overweight in adulthood increases remarkably through adolescence8 and that overweight during adolescence is associated with increased morbidity and mortality in adulthood.9 Third, behavior and influences on behavior itself are both subject to important changes during adolescence. Adolescents, compared with younger children, may benefit more from health education because they possess the cognitive and behavioral competencies necessary to understand and act on health and behavioral change instruction.10 Acquiring healthy dietary and physical activity habits during childhood and adolescence thus seems a more promising formula than altering ingrained unhealthy habits in adults.

Because low socioeconomic status in early life is associated with increased fatness in adulthood,11 we decided to restrict our sample to schools of the lowest educational level (ie, prevocational education). Although some studies1215 have demonstrated positive short-term effects on anthropometric measures, the underlying mechanisms of obesity prevention are still not fully understood. Because the number of well-designed trials in this field is small,16 randomized controlled trials that use a range of objective measures of body composition are needed.

Drawing from promising effects of preventive approaches aimed at changing adolescent energy balance–related behavior, we performed a randomized controlled trial: the Dutch Obesity Intervention in Teenagers (DOiT) study. We aimed to determine whether a school-based multicomponent health promotion intervention for Dutch adolescents would be successful in positively influencing body composition and aerobic fitness.

STUDY DESIGN AND PARTICIPANTS

A total of 18 prevocational secondary schools participated in the study. Participating schools were requested to select 3 classes of first-year students (aged 12-13 years), who received an informational brochure about the study. No inclusion criteria were set for students to take part in the study. Written informed consent was obtained from all students and their parents. The Medical Ethics Committee of the VU University Medical Center approved the study protocol.

After baseline measurements from September 15, 2003, through October 13, 2003, the schools were randomly assigned to either the intervention or control group, using SPSS statistical software (SPSS Inc, Chicago, Ill) for random selection of a sample. Randomization took place at the school level or at location level (in case 2 schools were located in 1 city) and was stratified by urbanization (urban vs rural). After randomization, schools were informed about the group allocation.

OUTCOME MEASURES

We collected data at baseline at the start of the first school year and after 8 months. Primary outcome measures were changes in measures of body composition: waist and hip circumference, skinfolds, and BMI class.17 The secondary outcome measure was change in aerobic fitness assessed by the shuttle run test (adapted 18-m version).

All measurements were performed within a 6-week period according to a standardized protocol by a trained research team, which was not blinded to the group assignment. Before each measurement period, we studied intrarater and interrater reliability of the skinfolds measurements, waist circumference, and hip circumference. Values for intrarater reliability varied from 0.82 to 0.95. Values for interrater reliability varied from 0.88 to 0.99.

Body height was measured and recorded with an accuracy of 1 mm with a portable stadiometer (Seca 225; Seca Deutschland, Hamburg, Germany). We attached a level to the stadiometer to ensure that head posture was established correctly for the measurement. Body weight was measured and recorded within 0.1 kg with a calibrated electronic flat scale (Seca 888; Seca Deutschland), leveled after each placement. Skinfolds were measured on the right side of the body to the nearest 0.2 mm, using a Harpenden skinfold caliper.18 We determined skinfold thickness by averaging 2 measurements. If the 2 measurements differed by more than 1 mm, a third measurement was performed, and skinfold thickness was taken as the average of the 3 measurements. Waist and hip circumferences were measured and recorded with a flexible band (Seca 200; Seca Deutschland) to an accuracy of 0.5 cm. The anatomical landmark for the waist circumference was laterally midway between the lowest portion of the rib cage and iliac crest. The anatomical landmark for the hip circumference was the trochanter major, the maximum circumference over the buttocks. During all measurements, students were dressed in underwear. We ensured adequate privacy during the measurements by measuring 1 adolescent at a time in a separate room.

We conducted a group-administered shuttle run test to assess aerobic fitness.19 Because of the limited size of the sports hall at several schools, we changed the distance for 1 shuttle to 18 m. The shuttle run test was always explained and conducted by the same researcher (A.S.).

INTERVENTION

We developed the DOiT program according to the Intervention Mapping protocol,4,20 which facilitates a systematic process of designing health promotion interventions and is based on theory and empirical evidence. The DOiT program consisted of individual components and environmental components (Figure 1). The individual component of the intervention consisted of an educational program that covered 11 lessons for the subjects of biology and physical education. Classroom teachers implemented the program during 2 fixed periods in 1 school year. The program aimed to increase awareness and behavioral changes concerning energy intake and energy output. Furthermore, we encouraged additional physical education classes and changes at school canteens to facilitate behavioral change. The development and content of the DOiT program are described in more detail elsewhere.21 We aimed to fit the DOiT program optimally into the regular curriculum in terms of content and time to improve program feasibility and acceptability. Control schools were requested to maintain their regular curriculum.

Place holder to copy figure label and caption
Figure 1.

Dutch Obesity Intervention in Teenagers program. BALANCEiT, CHOOSEiT, TESTiT, and CHECKiT indicate the different parts of the intervention.

Graphic Jump Location
STATISTICAL ANALYSIS

We used the nonparametric Kolmogorov-Smirnov z test (all measurements of body composition and physical fitness) and the Pearson χ2 test (BMI class) to compare groups at baseline. Multilevel analysis was used to evaluate the effects of the intervention on all anthropometric measures and aerobic fitness. Using this technique, regression coefficients could be adjusted for the clustering of observations within 1 school and/or class. We defined 3 levels in our multilevel analysis: (1) student, (2) class, and (3) school. Linear and logistic models were used to study the effect of the intervention on the outcome values. The parameters of interest were the regression coefficients, indicating the effect of the intervention compared with the control group. In the crude model the outcome value at 8 months was adjusted for baseline value. Interaction effects for sex and age for all outcome measures and for overweight for aerobic fitness only were checked. All analyses were performed according to the intention-to-treat principle.

Sample size calculation was based on changes in body weight. Assuming α = .05, power = 90%, and a 2-sided test, we needed 233 participants per group to show a mean ± SD difference in weight of 0.5 ± 1.5 kg between the intervention and control groups. To perform multilevel analyses and taking into account the cluster randomization design, a sample size between 500 and 600 individuals from 16 schools was required. We increased the sample size to allow for dropout.

PARTICIPATION, COMPLETION RATE, AND BASELINE CHARACTERISTICS OF THE STUDY SAMPLE

In total, complete data were obtained in 978 students (Figure 2). Table 1 gives the baseline characteristics of our sample in terms of body weight, body height, and percentage of overweight and obesity. Mean baseline data stratified by sex revealed significant differences between control schools and intervention schools with regard to weight (boys) and body height (girls) (Table 1).

Place holder to copy figure label and caption
Figure 2.

Flow of the participants through the trial.

Graphic Jump Location
Table Graphic Jump LocationTable 1. Characteristics at Baseline in the Intervention and Control Schools*
EFFECTS ON BODY COMPOSITION AND AEROBIC FITNESS

We conducted analyses separately for boys and girls because sex was found to be an effect modifier. In Table 2 and Table 3, we present the means for all outcome measures at baseline and follow-up and the results of the multilevel analyses (regression coefficients of the crude model) for girls and boys, respectively. After the 8-month intervention period, all measures had changed in favor of the intervention group among both girls and boys.

Table Graphic Jump LocationTable 2. Anthropometric Characteristics and Physical Fitness in Girls at Baseline and After the 8-Month Intervention and Mean Difference in Change Between the Intervention and Control Schools*
Table Graphic Jump LocationTable 3. Anthropometric Characteristics and Physical Fitness in Boys at Baseline and After the 8-Month Intervention and Mean Difference in Change Between the Intervention and Control Schools*

No significant intervention effects on BMI were found, although changes in BMI tended to be more favorable in the intervention group. This finding applied to both sexes. We found no between-group differences with regard to BMI class. In girls, 5 (2.8%) of 176 in the control group and 8 (2.9%) of 273 in the intervention group were classified as being of normal weight during baseline and as overweight after the 8-month intervention period. In boys, 5 (2.6%) of 196 in the control group and 10 (4.0%) of 249 in the intervention group were classified as being of normal weight during baseline and as overweight after the 8-month intervention period.

Changes in waist-hip ratio differed significantly in favor of the intervention group among boys and girls because of a smaller increase in waist circumference in boys and a larger increase in hip circumference in girls in the intervention group. Another significantly favorable intervention effect on the sum of skinfolds was found in girls. In girls, average triceps skinfold thickness increased in the control group, whereas it decreased in the intervention group. Average changes in the thickness of biceps (decrease), subscapular (decrease), and suprailiac (increase) skinfolds were also more favorable in the intervention group.

In boys, average suprailiac skinfold thickness increased in the control group, whereas it decreased in the intervention group. Average changes in skinfold thickness of the triceps (decrease), biceps (decrease), subscapular (increase), and sum of skinfolds (decrease) were also more favorable in the intervention group.

The increase in aerobic fitness was somewhat larger in the intervention group among both boys and girls, but this finding was not statistically significant. A significant interaction between group allocation and age was found in girls. The interaction indicated that with increasing age the effect of the intervention on aerobic fitness was more favorable.

The DOiT study was designed to evaluate the effectiveness of an interdisciplinary school-based program aimed at the prevention of overweight and obesity. The effects of this multicomponent intervention program were small but promising. In girls, we found significant intervention effects for 3 important measures of body composition after the 8-month intervention period: sum of skinfolds, waist circumference, and waist-hip ratio. In boys, we found significant differences with regard to waist circumference and waist-hip ratio. All changes in anthropometric outcome measures and aerobic fitness consistently favored the boys and girls of the intervention schools.

Our results suggest that the DOiT program was successful in altering body composition toward less fat mass in both sexes. The absence of significant differences with regard to BMI may be attributed to the failure of BMI to distinguish between fat and fat-free mass22 and the fact that skinfold thickness is more sensitive to small changes in body composition. Our results are in line with the findings of Mcmurray et al,23 who also found a significant intervention effect on skinfold thickness but no effect on BMI. Findings of the New Moves study24 also illustrate a lack of effect on BMI after the 8-month intervention. The authors24 emphasize the need for more sensitive measures than BMI for assessing small changes in body composition.

Our findings do not exactly correspond with those of Gortmaker et al,12 who found a decrease in prevalence rates of obesity in girls after a school-based prevention program (ie, Planet Health). The discrepancy of the results between our study and that of Gortmaker and colleagues may be attributed to the difference with regard to the outcome measures used to determine effectiveness. Gortmaker and colleagues used a composite indicator to define prevalence rates of obesity, consisting of BMI and triceps skinfold thickness. We did not find significant effects on the isolated measures of BMI and triceps skinfold thickness, although our results are in favor of the intervention group on both outcome measures. Furthermore, considerable differences exist concerning program duration and intensity. The Planet Health intervention12 consisted of 32 lessons spread over 2 school years, whereas the DOiT program comprised 11 lessons spread over 1 school year.

Although waist circumference is considered to be an important risk factor for cardiovascular diseases and type 2 diabetes mellitus in adults25 and adolescents,26 to our knowledge no studies have evaluated the effectiveness of obesity prevention programs in adolescents on both waist and hip circumference. The DOiT program had significant beneficial effects on waist circumference in boys and hip circumference in girls. Data from several studies show that a larger hip circumference is a significant independent inverse risk factor for cardiovascular disease and diabetes in adults,27 independent of BMI and waist circumference. These facts, combined with the results we found, suggest that the DOiT program has led to favorable changes in waist circumference (decrease in visceral fat accumulation) in boys and hip circumference (increase in muscle mass in the gluteal region)28 in girls.

Our study comprised several strong elements. First, the study had a solid theoretical basis because we used the Intervention Mapping protocol20 for the development of the intervention and for the selection of evidence-based intervention elements, such as the introduction of additional lessons in physical education, computer-tailored individualized feedback,29 and simultaneous targeting of individual and environmental determinants of dietary and physical activity behavior.4 Another strength of our study is that the intervention is easy to implement and sustain as a whole because it requires only existing school staff, has low implementation costs, and includes lessons that fit the existing biology and physical education curriculum of the schools. We restricted our sample to schools of the lowest educational level because in many Western countries an inverse relationship between educational level or socioeconomic status and prevalence of obesity has been observed.30 To our knowledge, this is the first school-based obesity prevention program that specifically targets this segment of the adolescent population. Finally, we achieved a high participation rate, ensuring good representation of the general population of students of secondary prevocational education in the Netherlands.

The effect sizes in the present study were relatively small compared with the size of the obesity problem, an apparent drawback that we share with other studies.31 However, in interpreting the results of the present study, one should bear in mind that the aim of our intervention was prevention rather than treatment of obesity. Currently, no evidence has indicated that the small effects we found can make a difference in the long term. Nevertheless, our results suggest that from the perspective of public health and prevention of excessive weight gain, the DOiT program has the potential to effect change in the right direction. Effective interventions aimed at preventing excessive weight gain in adolescence are vital but may affect health in the longer term only if such approaches are implemented on a broad scale with public and governmental involvement.

The lack of significant between-group differences regarding changes in aerobic fitness is disappointing given the results of several other obesity prevention studies that found positive intervention effects on (proxy) measures of aerobic fitness.1315,23 Although the shuttle run test is probably the most widely used test to assess aerobic fitness among children and adolescents and its reliability and validity have been proved,32 it may be less suitable for the age group of our study population. Confidence in the validity of our shuttle run findings is limited by the observations during the measurements, postulating the influence of motivation and peer pressure on the performance of the shuttle run test.

The fact that our study population consisted exclusively of students from the lower educational levels of the Dutch school system restricts the generalization of our results to this section of the adolescent population. In addition, a selection bias cannot be excluded given that the repeated measurements combined with the moderate changes in the curricula were rather demanding for the participating schools.

In summary, the results of our study showed that well-planned moderate physical activity and nutritional alterations to the school curricula may contribute to the prevention of excessive weight gain among adolescents. After an 8-month intervention period, sensitive measures of body composition, such as the sum of skinfolds and waist and hip circumference, significantly changed in favor of the intervention schools in both sexes. The DOiT study thus emphasizes the need for low-intensity population-wide studies.

Correspondence: Marijke Jeannette Maidy Chin A Paw, PhD, EMGO Institute, Department of Public and Occupational Health, VU University Medical Center, van der Boechorststraat 7, 1081 BT Amsterdam, the Netherlands (m.chinapaw@vumc.nl).

Accepted for Publication: January 4, 2007.

Author Contributions: Ms Singh had full access to all the data in the study and takes responsibility for the integrity of the data and the accuracy of the data analysis. Study concept and design: Singh, Chin A Paw, Brug, and van Mechelen. Acquisition of data: Singh. Analysis and interpretation of data: Singh, Chin A Paw, Brug, and van Mechelen. Drafting of the manuscript: Singh and Chin A Paw. Critical revision of the manuscript for important intellectual content: Singh, Chin A Paw, Brug, and van Mechelen. Statistical analysis: Singh and Chin A Paw. Obtained funding: Chin A Paw, Brug, and van Mechelen. Administrative, technical, and material support: Singh. Study supervision: Chin A Paw, Brug, and van Mechelen.

Financial Disclosure: None reported.

Funding/Support: This study is part of Netherlands Research Programme Weight Gain Prevention and is funded by grant 2000Z003 from the Netherlands Heart Foundation and by the Dutch Ministry of Health, Welfare, and Sports and the Royal Association of Teachers of Physical Education.

Role of the Sponsor: None of the funders had input into protocol development, data collection, or analyses or interpretation.

Acknowledgment: We thank the students and the staff of the schools for their participation in the trial and their support. We also thank our research assistant, Judith van Leeuwen, MSc, for her help and enthusiasm during the data collection phase.

British Medical Association; Board of Science, Preventing childhood obesity. 2005;http://www.bma.org.uk/ap.nsf/AttachmentsByTitle/PDFchildhoodobesity/$FILE/PreventingObesityfinal.pdfAccessed April 18, 2006
World Health Organization, Obesity: Preventing and Managing the Global Epidemic, Report of a WHO Consultation, Geneva, 3-5 Jun 1997.  Geneva, Switzerland World Health Organization1998;WHO Technical Report Series 894
ILSI Europe Overweight and Obesity in Children Task Force, Overweight and Obesity in European Children and Adolescents (1-57881-103-1).  Brussels, Belgium ILSI Press2002;1- 8
Kremers  SPVisscher  TLBrug  J  et al.  Netherlands research programme weight gain prevention (NHF-NRG): rationale, objectives and strategies. Eur J Clin Nutr 2005;59498- 507
PubMed Link to Article
Swinburn  BEgger  GRaza  F Dissecting obesogenic environments: the development and application of a framework for identifying and prioritizing environmental interventions for obesity. Prev Med 1999;29563- 570
PubMed Link to Article
Flodmark  CEMarcus  CBritton  M Interventions to prevent obesity in children and adolescents: a systematic literature review. Int J Obes (Lond) 2006;30579- 589
PubMed Link to Article
Seidell  JC The current epidemic of obesity. Bouchard  CedPhysical Activity and Obesity. Champaign, Ill Human Kinetics2000;
Serdula  MKIvery  DCoates  RJFreedman  DSWilliamson  DFByers  T Do obese children become obese adults? a review of the literature. Prev Med 1993;22167- 177
PubMed Link to Article
Must  ASpadano  JCoakley  EHField  AEColditz  GDietz  WH The disease burden associated with overweight and obesity. JAMA 1999;2821523- 1529
PubMed Link to Article
Frenn  MMalin  SBansal  NK Stage-based interventions for low-fat diet with middle school students. J Pediatr Nurs 2003;1836- 45
PubMed Link to Article
Parsons  TJPower  CLogan  SSummerbell  CD Childhood predictors of adult obesity: a systematic review. Int J Obes Relat Metab Disord 1999;23(suppl 8)S1- S107
PubMed
Gortmaker  SLPeterson  KWiecha  J  et al.  Reducing obesity via a school-based interdisciplinary intervention among youth: Planet Health. Arch Pediatr Adolesc Med 1999;153409- 418
PubMed Link to Article
Flores  R Dance for health: improving fitness in African American and Hispanic adolescents. Public Health Rep 1995;110189- 193
PubMed
Killen  JDRobinson  TNTelch  MJ  et al.  The Stanford Adolescent Heart Health Program. Health Educ Q 1989;16263- 283
PubMed Link to Article
Tell  GSVellar  OL Noncommunicable disease risk factor intervention in Norwegian adolescents: the Oslo Youth Study. Hetzel  BedBerenson  GSedCardiovascular Risk Factors in Childhood: Epidemiology and Prevention. Amsterdam, the Netherlands Elsevier Science Publishers BV1987;203- 217
Campbell  KWaters  EO'Meara  SKelly  SSummerbell  C Interventions for preventing obesity in children. Cochrane Database Syst Rev 2002;2CD001871
PubMed
Cole  TJBellizzi  MCFlegal  KMDietz  WH Establishing a standard definition for child overweight and obesity worldwide: international survey. BMJ 2000;3201240- 1243
PubMed Link to Article
Durnin  JVRahaman  MM The assessment of the amount of fat in the human body from measurements of skinfold thickness. Br J Nutr 1967;21681- 689
PubMed Link to Article
Léger  LAMercier  DGadoury  CLambert  J The multistage 20 metre shuttle run test for aerobic fitness. J Sports Sci 1988;693- 101
PubMed Link to Article
Bartholomew  LKParcel  GSKok  GGottlieb  NH Intervention Mapping: Designing Theory and Evidence-Based Health Promotion Programs.  Mountain View, Calif Mayfield2001;
Singh  ASChin A Paw  MJMKremers  SPJVisscher  TLSBrug  JVan Mechelen  W Design of the Dutch Obesity Intervention in Teenagers (NRG-DOiT): systematic development, implementation and evaluation of a school-based intervention aimed at the prevention of excessive weight gain in adolescents. BMC Public Health 2006;6304
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Mcmurray  RGHarrell  JSBangdiwala  SIBradley  CBDeng  SLevine  A A school-based intervention can reduce body fat and blood pressure in young adolescents. J Adolesc Health 2002;31125- 132
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Neumark-Sztainer  DStory  MHannan  PJRex  J New Moves: a school-based obesity prevention program for adolescent girls. Prev Med 2003;3741- 51
PubMed Link to Article
Kissebah  AH Intra-abdominal fat: is it a major factor in developing diabetes and coronary artery disease? Diabetes Res Clin Pract 1996;30(suppl)25- 30
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Taylor  RWJones  IEWilliams  SMGoulding  A Evaluation of waist circumference, waist-to-hip ratio, and the conicity index as screening tools for high trunk fat mass, as measured by dual-energy X-ray absorptiometry, in children aged 3-19 y. Am J Clin Nutr 2000;72490- 495
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Yusuf  SHawken  SOunpuu  S  et al.  Obesity and the risk of myocardial infarction in 27,000 participants from 52 countries: a case-control study. Lancet 2005;3661640- 1649
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Snijder  MBDekker  JMVisser  M  et al.  Associations of hip and thigh circumferences independent of waist circumference with the incidence of type 2 diabetes: the Hoorn Study. Am J Clin Nutr 2003;771192- 1197
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Brug  JOenema  ACampbell  M Past, present, and future of computer-tailored nutrition education. Am J Clin Nutr 2003;77(suppl)1028S- 1034S
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Wang  Y Cross-national comparison of childhood obesity: the epidemic and the relationship between obesity and socioeconomic status. Int J Epidemiol 2001;301129- 1136
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Lobstein  TBaur  LUauy  R Obesity in children and young people: a crisis in public health. Obes Rev 2004;5(suppl 1)4- 85
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van Mechelen  WHlobil  HKemper  HC Validation of two running tests as estimates of maximal aerobic power in children. Eur J Appl Physiol Occup Physiol 1986;55503- 506
PubMed Link to Article

Figures

Place holder to copy figure label and caption
Figure 1.

Dutch Obesity Intervention in Teenagers program. BALANCEiT, CHOOSEiT, TESTiT, and CHECKiT indicate the different parts of the intervention.

Graphic Jump Location
Place holder to copy figure label and caption
Figure 2.

Flow of the participants through the trial.

Graphic Jump Location

Tables

Table Graphic Jump LocationTable 1. Characteristics at Baseline in the Intervention and Control Schools*
Table Graphic Jump LocationTable 2. Anthropometric Characteristics and Physical Fitness in Girls at Baseline and After the 8-Month Intervention and Mean Difference in Change Between the Intervention and Control Schools*
Table Graphic Jump LocationTable 3. Anthropometric Characteristics and Physical Fitness in Boys at Baseline and After the 8-Month Intervention and Mean Difference in Change Between the Intervention and Control Schools*

References

British Medical Association; Board of Science, Preventing childhood obesity. 2005;http://www.bma.org.uk/ap.nsf/AttachmentsByTitle/PDFchildhoodobesity/$FILE/PreventingObesityfinal.pdfAccessed April 18, 2006
World Health Organization, Obesity: Preventing and Managing the Global Epidemic, Report of a WHO Consultation, Geneva, 3-5 Jun 1997.  Geneva, Switzerland World Health Organization1998;WHO Technical Report Series 894
ILSI Europe Overweight and Obesity in Children Task Force, Overweight and Obesity in European Children and Adolescents (1-57881-103-1).  Brussels, Belgium ILSI Press2002;1- 8
Kremers  SPVisscher  TLBrug  J  et al.  Netherlands research programme weight gain prevention (NHF-NRG): rationale, objectives and strategies. Eur J Clin Nutr 2005;59498- 507
PubMed Link to Article
Swinburn  BEgger  GRaza  F Dissecting obesogenic environments: the development and application of a framework for identifying and prioritizing environmental interventions for obesity. Prev Med 1999;29563- 570
PubMed Link to Article
Flodmark  CEMarcus  CBritton  M Interventions to prevent obesity in children and adolescents: a systematic literature review. Int J Obes (Lond) 2006;30579- 589
PubMed Link to Article
Seidell  JC The current epidemic of obesity. Bouchard  CedPhysical Activity and Obesity. Champaign, Ill Human Kinetics2000;
Serdula  MKIvery  DCoates  RJFreedman  DSWilliamson  DFByers  T Do obese children become obese adults? a review of the literature. Prev Med 1993;22167- 177
PubMed Link to Article
Must  ASpadano  JCoakley  EHField  AEColditz  GDietz  WH The disease burden associated with overweight and obesity. JAMA 1999;2821523- 1529
PubMed Link to Article
Frenn  MMalin  SBansal  NK Stage-based interventions for low-fat diet with middle school students. J Pediatr Nurs 2003;1836- 45
PubMed Link to Article
Parsons  TJPower  CLogan  SSummerbell  CD Childhood predictors of adult obesity: a systematic review. Int J Obes Relat Metab Disord 1999;23(suppl 8)S1- S107
PubMed
Gortmaker  SLPeterson  KWiecha  J  et al.  Reducing obesity via a school-based interdisciplinary intervention among youth: Planet Health. Arch Pediatr Adolesc Med 1999;153409- 418
PubMed Link to Article
Flores  R Dance for health: improving fitness in African American and Hispanic adolescents. Public Health Rep 1995;110189- 193
PubMed
Killen  JDRobinson  TNTelch  MJ  et al.  The Stanford Adolescent Heart Health Program. Health Educ Q 1989;16263- 283
PubMed Link to Article
Tell  GSVellar  OL Noncommunicable disease risk factor intervention in Norwegian adolescents: the Oslo Youth Study. Hetzel  BedBerenson  GSedCardiovascular Risk Factors in Childhood: Epidemiology and Prevention. Amsterdam, the Netherlands Elsevier Science Publishers BV1987;203- 217
Campbell  KWaters  EO'Meara  SKelly  SSummerbell  C Interventions for preventing obesity in children. Cochrane Database Syst Rev 2002;2CD001871
PubMed
Cole  TJBellizzi  MCFlegal  KMDietz  WH Establishing a standard definition for child overweight and obesity worldwide: international survey. BMJ 2000;3201240- 1243
PubMed Link to Article
Durnin  JVRahaman  MM The assessment of the amount of fat in the human body from measurements of skinfold thickness. Br J Nutr 1967;21681- 689
PubMed Link to Article
Léger  LAMercier  DGadoury  CLambert  J The multistage 20 metre shuttle run test for aerobic fitness. J Sports Sci 1988;693- 101
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Bartholomew  LKParcel  GSKok  GGottlieb  NH Intervention Mapping: Designing Theory and Evidence-Based Health Promotion Programs.  Mountain View, Calif Mayfield2001;
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