Association between the environment for physical activity in public schools and childhood obesity: a view in the light of complex systems

Souza Filho, Anastácio Neco de; Bezerra, Thaynã Alves; Bandeira, Paulo Felipe Ribeiro; Cabral, Luciana Gatto; Brito, André; Guerra, Paulo Henrique; Martins, Clarice Maria de Lucena; Carvalho, Ferdinando Oliveira

doi:10.1590/1413-81232024296.05162023

Abstract

This article aims to analyse the relationship between physical activity (PA) environment at schools, sex, age, and obesity in children, using a network approach. This is a cross-sectional study, with 1,200 children (8.1±1.0 years old) from eight public schools in the same municipality. Weight and height measurements were assessed to calculate the Body Mass Index (BMI) and classified as healthier weight or overweight. To assess the PA environment at school, a interview with the school´s manager was conducted. The association between the PA environment at school and obesity was tested using a Network Analysis performed on the Jasp software. Positive associations between BMI and Physical Education classes (0.847), physical education teacher (0.349), break duration (0.564), and indoor sports court (0.662) were observed. Negative associations were seen with sex (-0.212) age (-0.387), extracurricular PA (-0.492), and playground (-0.557). Additionally, the centrality indicators highlighted extracurricular PA (1.789) as the variables with the highest betweenness values, and BMI with the highest closeness (2.239) and strength (1.230) values. Extracurricular PA and the presence of playgrounds in school´s environment are associated with healthier weight in low-income children.

Key words:
School environment; Physical activity; Obesity

Resumo

O objetivo deste artigo é analisar a relação entre ambiente de atividade física (AF) nas escolas, sexo, idade e obesidade em crianças, usando uma abordagem de rede. Trata-se de um estudo transversal com 1.200 crianças (8,1±1,0 anos) de oito escolas públicas do mesmo município. Peso e estatura foram avaliadas para cálculo do Índice de Massa Corporal (IMC) e classificadas como peso saudável ou sobrepeso. Para avaliar o ambiente de AF na escola, foi aplicado um questionário por meio de entrevista com o gestor da escola. A associação entre o ambiente de AF na escola e a obesidade foi testada por meio Análise de Redes realizada no software Jasp. Foram observadas associações positivas entre o IMC e as aulas de Educação Física (0,847), professor de educação física (0,349), duração do intervalo (0,564) e quadra poliesportiva (0,662). Associações negativas foram observadas com sexo (-0,212), idade (-0,387), AF extracurricular (-0,492) e playground (-0,557). Adicionalmente, os indicadores de centralidade destacaram a AF extracurricular (1,789) como a variável com o maior valor de intermediação, e o IMC com o maior valor de proximidade (2,239) e força (1,230). A AF extracurricular e a presença de playgrounds no ambiente escolar estão associadas a um peso mais saudável em crianças de baixa renda.

Palavras-chave:
Ambiente escolar; Atividade Física; Obesidade

Introduction

During childhood, obesity is associated with cardiovascular risk factors, such as dyslipidemia, hypertension, diabetes and coronary heart disease¹1 World Health Organization (WHO). Consideration of the evidence on childhood obesity for the Commission on Ending Childhood Obesity: report of the ad hoc working group on science and evidence for ending childhood obesity. Geneva: WHO; 2016., with behavioural and emotional disorders²2 Rankin J, Matthews L, Cobley S, Han A, Sanders R, Wiltshire HD, Baker JS. Psychological consequences of childhood obesity: psychiatric comorbidity and prevention. Adolesc Health Med Ther 2016; 7:125-146., low physical activity (PA) and fitness levels³3 Thivel D, Ring-Dimitriou S, Weghuber D, Frelut ML, O'Malley G. Muscle Strength and Fitness in Pediatric Obesity: a Systematic Review from the European Childhood Obesity Group. Obesity Facts 2016; 9:52-63., and increased sedentary time¹1 World Health Organization (WHO). Consideration of the evidence on childhood obesity for the Commission on Ending Childhood Obesity: report of the ad hoc working group on science and evidence for ending childhood obesity. Geneva: WHO; 2016., becoming a severe health problem. Thus, its early prevention is a public health priority⁴4 Cecchini M, Vuik S. The heavy burden of obesity. Paris: OECD; 2019.. It is emergent to avoid children´s exposure to obesogenic environments⁵5 Egger G, Swinburn B. An "ecological" approach to the obesity pandemic. BMJ 1997; 315(7106):477-480., which do not favour the choice of healthy habits, such as adequate caloric intake and PA practice⁶6 Di Cesare M, Soric M, Bovet P, Miranda JJ, Bhutta Z, Stevens GA, Laxmaiah A, Kengne AP, Bentham J. The epidemiological burden of obesity in childhood: a worldwide epidemic requiring urgent action. BMC Med 2019; 17(1):212.. The school is recognized as an essential environment to promote schoolchildren´s healthy behaviours, considering its pre-planned, segmented, and supervised structure⁷7 Adom T, Kengne AP, De Villiers A, Puoane T. Association between school-level attributes and weight status of Ghanaian primary school children. BMC Public Health 2019; 19:577.. Previous studies have shown that the school environment, when well oriented, may lead schoolchildren to adopt a healthier lifestyle⁸8 Trigueros R, Mínguez LA, González-Bernal JJ, Aguilar-Parra JM, Soto-Cámara R, Álvarez JF, Rocamora P. Physical Education Classes as a Precursor to the Mediterranean Diet and the Practice of Physical Activity. Nutrients 2020; 12(1):239.^,⁹9 Gallotta MC, Iazzoni S, Emerenziani GP, Meucci M, Migliaccio S, Guidetti L, Baldari C. Effects of combined physical education and nutritional programs on schoolchildren's healthy habits. PeerJ 2016; 4:e1880..

Childhood is a critical phase to adopt healthy behaviours, such as PA¹⁰10 Jones RA, Hinkley T, Okely AD, Salmon J. Tracking physical activity and sedentary behavior in childhood: a systematic review. Am J Prev Med 2013; 44(6):651-658., which may contribute to a healthy weight status. Nonetheless, PA prevalence in six-to-ten-years-old schoolchildren has decreased substantially, and many schoolchildren do not comply with PA recommendations¹¹11 Wu CL, Chang CK. Results from the Chinese Taipei (Taiwan) 2018 Report Card on physical activity for children and youth. J Exerc Sci Fit 2019; 17(1):8-13.. Moreover, for schoolchildren from low-income families, PA opportunities are even worse, due to the lack of PA environments¹1 World Health Organization (WHO). Consideration of the evidence on childhood obesity for the Commission on Ending Childhood Obesity: report of the ad hoc working group on science and evidence for ending childhood obesity. Geneva: WHO; 2016.^,⁴4 Cecchini M, Vuik S. The heavy burden of obesity. Paris: OECD; 2019.. Thus, the school environment may be a potential environment to promote PA, especially when considering its greater flexibility for structural changes, and the possibility of implementing a transversal health promotion program, which may impact on several schoolchildren simultaneously. Likewise, it has a fundamental role in providing healthy opportunities, especially in low-income contexts, where schools are the only environment where schoolchildren may engage in PA⁶6 Di Cesare M, Soric M, Bovet P, Miranda JJ, Bhutta Z, Stevens GA, Laxmaiah A, Kengne AP, Bentham J. The epidemiological burden of obesity in childhood: a worldwide epidemic requiring urgent action. BMC Med 2019; 17(1):212..

Aspects of the school environment, such as physical education (PE) classes, are associated with higher PA levels among schoolchildren¹²12 Silva DAS, Chaput JP, Katzmarzyk PT, Fogelholm M, Hu G, Maher C, Olds T, Onywera V, Sarmiento OL, Standage M, Tudor-Locke C, Tremblay MS. Physical Education Classes, Physical Activity, and Sedentary Behavior in Children. Med Sci Sports Exerc 2018; 50(5):995-1004.. However, in Brazilian schoolchildren, the results of a previous study showed that participation in PE classes was not associated with schoolchildren´ protection for overweight and obesity¹³13 Coledam DHC, Ferraiol PF, Greca JPA, Teixeira M, Oliveira AR. Physical education classes and health outcomes in brazilian students. Rev Paul Pediatr 2018; 36(2):192-198.. In fact, opportunities for PA in school environments through physical education classes should be part of multicomponent programs aimed at changing schoolchildren’s lifestyles designed to combat childhood obesity. Review studies reported that interventions focusing on changing schoolchildren’s behaviour at the school environment have been ineffective in achieving these goals¹⁴14 Jones D, Innerd A, Giles EL, Azevedo LB. Association between fundamental motor skills and physical activity in the early years: A systematic review and meta-analysis. J Sport Health Sci 2020; 9(6):542-552.^,¹⁵15 Love R, Adams J, van Sluijs EMF. Are school-based physical activity interventions effective and equitable? A meta-analysis of cluster randomized controlled trials with accelerometer-assessed activity. Obes Rev 2019; 20(6):859-870.. Therefore, children´s PA at schools seems to be determined by different PA opportunities at school settings, that are dynamically interrelated to create a healthier pattern for schoolchildren´s PA engagement¹⁶16 Mollborn S, Lawrence E. Family, Peer, and School Influences on Children's Developing Health Lifestyles. J Health Soc Behav 2018; 59(1):133-150.^,¹⁷17 Jurado-Castro JM, Gil-Campos M, Gonzalez-Gonzalez H, Llorente-Cantarero FJ. Evaluation of Physical Activity and Lifestyle Interventions Focused on School Children with Obesity Using Accelerometry: A Systematic Review and Meta-Analysis. Int J Environ Res Public Health 2020; 17(17):6031.. The PA environment at schools may be seen as a complex system composed of different levels, that can emerge through interactions of varying school components, and assessed through a Network perspective, which considers its non-linear, dynamic and adaptive characteristics¹⁸18 Rosas SR. Systems thinking and complexity: considerations for health promoting schools. Health Promot Int 2017; 32(2):301-311.. For this reason, it is essential to carry out studies that analyse these phenomena in the light of complex systems, especially in low-income populations that present in their contexts very different realities from the previously studied populations. Thus, this study aimed to analyse the relationship between PA environment at schools and schoolchildren´s obesity status, using a network approach.

Methods

Study design

This cross-sectional study used data from the “Panpes” program, aimed to analyze the effect of a multicomponent intervention on health and behavioural outcomes of obese children. All the Helsinki Declarations’ ethical aspects were followed¹⁹19 World Health Organization (WHO). World Medical Association Declaration of Helsinki. Ethical principles for medical research involving human subjects. Geneva: WHO; 2001., and the project was approved by the Research Ethics Committee of Health Science Center (protocol No. 1.311.598) and by the Education Board of the city. Parents and children signed a consent before participating.

Eligibility criteria and setting

Eligibility criteria for schools and children´s selection was established as follows: public elementary schools should have central and suburban and underserved areas in Petrolina-PE, Brazil. Still, having a covered gym with at least 100 students. Therefore, eight schools met the eligibility criteria. The schoolchildren were considered eligible if they were aged 6 to 10 years, enrolled in one of the eligible schools. Based on this, 2,231 children were eligible. All parents of registered children aged 6 to 10 years were invited, and 1,283 accepted to participate. However, 83 children were not included in the study because they missed school on data assessments. So, 1,200 children, in four different city areas of the city (North, South, East, and West) were analysed.

Measurements were performed during two months (October to December 2015) by five physical education teachers, who were previously trained and supervised by the project´s coordinator. On the first assessments the first day, an interview was held with the school managers to assess the school’s environment and children’s sociodemographic data (date of birth and sex). In the following days, the children’s anthropometric assessments were carried out. Approximately four days were required to assess all children participating in each school.

Variables and protocols

Anthropometric measurements

Anthropometric measurements were performed (weight and height) according to WHO procedures²⁰20 World Health Organization (WHO). Physical status: The use of and interpretation of anthropometry, Report of a WHO Expert Committee. Geneva: WHO; 1995., and carried by previously trained evaluators. Weight was determined on a digital platform scale, Wiso®, model W801, with an accuracy of up to 100 g, and height was determined using a Sanny® metallic measuring tape attached to the wall, with an accuracy of 0.1 cm. Body mass index (BMI) was calculated by dividing body weight with the squared height in meters (kg/m2) and, for analysis purposes, BMI was dichotomized into 0) healthy weight (>85th percentile) and 1) unhealthy weight (<85th percentile)²⁰20 World Health Organization (WHO). Physical status: The use of and interpretation of anthropometry, Report of a WHO Expert Committee. Geneva: WHO; 1995.. The sex variable was dichotomized into 0) male and 1) female.

PA environment at schools

To assess the PA environment at schools, the questionnaire developed by Mélo et al.²¹21 Mélo EN, Barros M, Hardman C, Siqueira M, Wanderley Júnior R, Oliveira EJRBAF. Associação entre o ambiente da escola de educação infantil e o nível de atividade física de crianças pré-escolares. RBAFS 2013; 18(1):53-62. which aims to analyse preschools’ environment for PA was used, and adapted for elementary school. For the present study, some original questions of the instrument were used, which were later divided into organizational and structural environments. For the organizational environment, the following issues were considered: 1) Does the school offer PE classes (1st to 4th year)? (0 - No x 1 - Yes); 2) Are the classes taught by a PE teacher? (0 - No x 1 - Yes); 3) How long does each break last; 6) Does the school offer extracurricular PA? (0 - No x 1 - Yes). For the structural ones, the following questions: 1) does the school have an indoor sports court?; 2) does the school have a playground? The answers were dichotomized as 0 = No and 1 = Yes, for analysis.

Data analysis

For descriptive analysis, frequency distribution and chi-square test were used. For analysis of associations, a Machine Learning technique called Network Analysis was used to establish interactions between variables from a graphical representation. The “Fruchterman- Reingold” algorithm was applied so, data were presented in the relative space in which variables with stronger associations remain together, and the less strongly associated variables were repelled from each other²²22 Fruchterman TMJ, Reingold EM. Graph drawing by force-directed placement. Software Pract Exper 1991; 21(11):1129-1164.. The least absolute contraction and selection operator was used to obtain regularization and to obtain a less sparse model²³23 Friedman J, Hastie T, Tibshirani R. Sparse inverse covariance estimation with the graphical lasso. Bioestatistics 2008; 9(3):432-441.. The partial correlation parameter was adjusted to 0.25 to create a network with greater parsimony and specificity²⁴24 Foygel R, Drton M. Extended Bayesian information criteria for Gaussian graphical models. Adv Neural Info Process Systems 2010; 23:2020-2028..

To quantify the importance of each node in the network, we then calculated the betweenness and strength centrality indices: (1) betweenness centrality, estimated from the number of times that a node is part of the shortest path among all other pairs of nodes connected to the network; (2) closeness centrality, determined from the inverse of the distances from one node to all others; (3) strength centrality which is the sum of all the weights of the paths that connect a node to the others. The variables were configured in four attributes: 1) demographics characteristics; 2) Organizational environment school 3) Structural environment school; 4) Obesity indicators. The positives correlations were represented in blue colour and the negatives correlations in red colour. Analyses were performed in Jasp (0.12.1).

Results

Table 1 shows the results of the prevalence of obesity between sex and age of students. There no significant differences between sexes among age strata.

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Table 1
Prevalence of obesity indicators in schoolchildren aged 6 to 9 years from public schools in the Vale do São Francisco region of Pernambuco in 2015.

The main results of the network analysis showed positive associations between BMI with PE classes (0.847), PE teacher (0.349), break duration (0.564) and indoor sports court (0.662). Negative associations were seen between BMI and sex (-0.212), age (-0.387), extracurricular PA (-0.492) and playground (-0.557).

The network between the assessed variables is shown in Figure 1. The blue lines represent the positive associations and the red the negative ones. The thickness of the lines represents the strength of the associations. The network is a graphical representation of Table 2, so the strongest associations in the network, are BMI with PE classes, PE teacher, break duration, indoor sports court, sex, age, extracurricular PA and playground.

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Table 2
Strength of associations between variables in the perspective of a network of the study carried out schoolchildren aged 6 to 9 years from public schools in the Vale do São Francisco region of Pernambuco in 2015.

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Figure 1
Network analysis of the study carried out schoolchildren aged 6 to 9 years from public schools in the Vale do São Francisco region of Pernambuco in 2015.

The centrality indicators highlighted that extracurricular PA (1.789) showed the highest betweenness values, estimated from the number of times that a node is part of the shortest path among all the others pairs of nodes connected to the network, meaning this is the variable with the higher number of network relationships. Furthermore, BMI showed the highest closeness (2.239) which is determined from the inverse of the distances from one node to all others and strength (1.230) values, which is the sum of all the weights of the paths that connect a node to the others, indicating that BMI may be easily impacted by possible changes in the network (Table 3).

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Table 3
Centrality measures per variable of the study carried out schoolchildren aged 6 to 9 years from public schools in the Vale do São Francisco region of Pernambuco in 2015.

Discussion

The present study considered the network perspective to investigate the association between the PA environment at schools and children´s obesity status. The main results showed extracurricular PA and BMI as the main network’s variables. Previous studies analysed the association between school environment and children’s BMI¹²12 Silva DAS, Chaput JP, Katzmarzyk PT, Fogelholm M, Hu G, Maher C, Olds T, Onywera V, Sarmiento OL, Standage M, Tudor-Locke C, Tremblay MS. Physical Education Classes, Physical Activity, and Sedentary Behavior in Children. Med Sci Sports Exerc 2018; 50(5):995-1004.^,¹³13 Coledam DHC, Ferraiol PF, Greca JPA, Teixeira M, Oliveira AR. Physical education classes and health outcomes in brazilian students. Rev Paul Pediatr 2018; 36(2):192-198.. However, as far as the authors know, this is the first study to consider the school environment’s organizational and structural characteristics and BMI as part of a network system. Additionally, this study covered an important gap in the literature, when highlighting this issue for children living in a low-income context.

In the present study, the break duration was positively associated with children´s weight status. This result could be, at least partially, explained by the low break duration in the assessed schools (20 minutes), and the cultural Brazilian context, where children tend to spend their break times chatting on smartphones or snacking. High obesity levels may promote changes in important health outcomes of school-age children such as shorter sleep duration²⁵25 Li L, Zhang S, Huang Y, Chen K. Sleep duration and obesity in children: A systematic review and meta-analysis of prospective cohort studies. J Paediatr Child Health 2017; 53(4):378-385., lower values of inhibitory control²⁶26 Mamrot P, Hanc T. The association of the executive functions with overweight and obesity indicators in children and adolescents: A literature review. Neurosci Biobehav Rev 2019; 107:59-68., high cardiovascular risk²⁷27 Sommer A, Twig G. The Impact of Childhood and Adolescent Obesity on Cardiovascular Risk in Adulthood: a Systematic Review. Curr Diab Rep 2018; 18(10):91., low PA²⁸28 Elmesmari R, Martin A, Reilly JJ, Paton JY. Comparison of accelerometer measured levels of physical activity and sedentary time between obese and non-obese children and adolescents: a systematic review. BMC Pediatr 2018; 18(1):106., and low physical fitness levels³3 Thivel D, Ring-Dimitriou S, Weghuber D, Frelut ML, O'Malley G. Muscle Strength and Fitness in Pediatric Obesity: a Systematic Review from the European Childhood Obesity Group. Obesity Facts 2016; 9:52-63.. This fact reinforces the importance of school´s environment in promoting a healthy lifestyle⁷7 Adom T, Kengne AP, De Villiers A, Puoane T. Association between school-level attributes and weight status of Ghanaian primary school children. BMC Public Health 2019; 19:577..

Indeed, PA should be encouraged in different settings to promote a healthy lifestyle²⁹29 Wickel EE, Belton S. School's out ... now what? Objective estimates of afterschool sedentary time and physical activity from childhood to adolescence. J Sci Med Sport 2016; 19(8):654-658., but particularly at school³⁰30 Heath GW, Parra DC, Sarmiento OL, Andersen LB, Owen N, Goenka S, Montes F, Brownson RC; Lancet Physical Activity Series Working Group. Evidence-based intervention in physical activity: lessons from around the world. Lancet 2012; 380(9838):272-281., and especially among low-income children. It requires remodeling the structural and organizational settings, that could be through PE classes, and trained staff to teach a healthy lifestyle through PA³¹31 Trigueros R, Mínguez LA, González-Bernal JJ, Jahouh M, Soto-Camara R, Aguilar-Parra JM. Influence of Teaching Style on Physical Education Adolescents' Motivation and Health-Related Lifestyle. Nutrients 2019; 11(11):2594. Although participation in PE classes has been associated with a better body composition profile³²32 Ten Hoor GA, Rutten GM, Van Breukelen GJP, Kok G, Ruiter RAC, Meijer K, Kremers SPJ, Feron FJM, Crutzen R, Schols AMJW, Plasqui G. Strength exercises during physical education classes in secondary schools improve body composition: a cluster randomized controlled trial. Int J Behav Nutr Phys Act 2018; 15(1):92. and with high levels of cardiorespiratory fitness and muscle strength in Brazilian students¹³13 Coledam DHC, Ferraiol PF, Greca JPA, Teixeira M, Oliveira AR. Physical education classes and health outcomes in brazilian students. Rev Paul Pediatr 2018; 36(2):192-198., a higher intensity and duration of PE classes should be encouraged³¹31 Trigueros R, Mínguez LA, González-Bernal JJ, Jahouh M, Soto-Camara R, Aguilar-Parra JM. Influence of Teaching Style on Physical Education Adolescents' Motivation and Health-Related Lifestyle. Nutrients 2019; 11(11):2594, especially when considering the heterogeneity in PE offer and classes’ procedures among the different Brazilian regions. Furthermore, a school´s curriculum, focused on active breaks, has been reported as effective to increase children´s PA³³33 Groffik D, Sigmund E, Frömel K, Chmelík F, Nováková Lokvencová P. The contribution of school breaks to the all-day physical activity of 9- and 10-year-old overweight and non-overweight children. Int J Public Health 2012; 57(4):711-718.. Additionally, overweight children tend to spend less time on moderate to vigorous PA during the break, than their healthy-weight peers³⁴34 Kobel S, Kettner S, Erkelenz N, Kesztyüs D, Steinacker JM. Does a higher incidence of break times in primary schools result in children being more physically active? J Sch Health 2015; 85(3):149-154. and adequate spaces at schools are key for children to be active during this time³⁵35 Henrique RS, Gomes TN, Tani G, Maia JAR. Association between body mass index and individual characteristics and the school context: a multilevel study with Portuguese children. J Pediatr (Rio J) 2018; 94(3):313-319.. Among low-income children, PA environments, such as a sports court, are associated with lower overweight³⁶36 Hood NE, Colabianchi N, Terry-McElrath YM, O'Malley PM, Johnston LD. Physical activity breaks and facilities in US secondary schools. J Sch Health 2014; 84(11):697-705., as schools may offer their unique opportunity to be active³⁷37 Powell LM, Slater S, Chaloupka FJ, Harper D. Availability of physical activity-related facilities and neighborhood demographic and socioeconomic characteristics: a national study. Am J Public Health 2006; 96(9):1676-80..

The negative association between BMI and PA during school hours extra has its partial explanation that all the schools evaluated were in neighborhoods with high crime, which makes access to school difficult, especially for children whose parents work and cannot accompany their children in these activities³⁸38 Goon S, Kontulainen S, Muhajarine N. Neighborhood Built Environment Measures and Association with Physical Activity and Sedentary Time in 9-14-Year-Old Children in Saskatoon, Canada. Int J Environ Res Public Health 2020; 17(11):3837.. Another possible explanation is that children with a healthy weight tend to engage more in extra physical activities than overweight³⁹39 Raistenskis J, Sidlauskiene A, Strukcinskiene B, Ugur Baysal S, Buckus R. Physical activity and physical fitness in obese, overweight, and normal-weight children. Turk J Med Sci 2016; 46(2):443-450.. Although positive associations have been seen between BMI and PE classes, PE teachers, break duration and indoor sports court, it is also important to highlight that the assessed children live and study in low-income settings, where the quality of those factors must be explored in future investigation. Moreover, extracurricular PA, focusing on structured and supervised activities, and playground to give children opportunity for unstructured PA, should be encouraged towards a health BMI.

Indeed, the approach adopted in this study, which focus on PA as part of a complex system⁴⁰40 Brug J. Order is needed to promote linear or quantum changes in nutrition and physical activity behaviors: a reaction to 'A chaotic view of behavior change' by Resnicow and Vaughan. Int J Behav Nutr Phys Act 2006; 3:29., composed of different levels, and that emerges through interactions of different components, including school´s environment, allows to recognize the characteristics of the interrelationships between PA school´s environment and BMI through non-linear, dynamic relationships. Thus, the associations observed are part of a systemic approach, which concept has been introduced to understand the diversity of factors related to health behaviours⁴¹41 Carey G, Malbon E, Carey N, Joyce A, Crammond B, Carey AJB. Systems science and systems thinking for public health: a systematic review of the field. BMJ Open 2015; 5(12):e009002., and should not be considered in isolation. Studies using this approach have focused on aspects of public health policies⁴²42 Mabry PL, Marcus SE, Clark PI, Leischow SJ, Méndez D. Systems science: a revolution in public health policy research. Am J Public Health 2010; 100(7):1161-1163., health education⁴³43 Cooper H, Geyer R. Using 'complexity'for improving educational research in health care. J Soc Sci Med 2008; 67(1):177-182., and obesity⁴⁴44 Christakis NA, Fowler JH. The spread of obesity in a large social network over 32 years. N Engl J Med 2007; 357(4):370-379.. Thus, children PA, as a marker health behaviour, is part of that holistic perspective, that occurs by forming patterns responsive to the entire environmental context⁴⁵45 Luke DA, Stamatakis KA. Systems science methods in public health: dynamics, networks, and agents. Annu Rev Public Health 2012; 33:357-376..

The present study has some limitations that need to be considered when interpreting its results: a) the questionnaire used to assess the school environment has not been validated and therefore does not present psychometric indicators. However, the questionnaire is quite simple and objective, with closed possible answers, what may reduce the bias risk; b) the lack of children’s PA data is another limitation that should be considered for future studies. Nonetheless, the results cover a representative sample of children living in low-income contexts in Petrolina and used a systemic approach to lead with complex health problem of schoolchildren.

Conclusion

Extracurricular PA and the presence of playgrounds at school’s environment are associated with a healthier weight status in obese low-income children. These results may support decision making and public policies for school’s settings, towards children’s health lifestyle.

References

¹
World Health Organization (WHO). Consideration of the evidence on childhood obesity for the Commission on Ending Childhood Obesity: report of the ad hoc working group on science and evidence for ending childhood obesity. Geneva: WHO; 2016.
²
Rankin J, Matthews L, Cobley S, Han A, Sanders R, Wiltshire HD, Baker JS. Psychological consequences of childhood obesity: psychiatric comorbidity and prevention. Adolesc Health Med Ther 2016; 7:125-146.
³
Thivel D, Ring-Dimitriou S, Weghuber D, Frelut ML, O'Malley G. Muscle Strength and Fitness in Pediatric Obesity: a Systematic Review from the European Childhood Obesity Group. Obesity Facts 2016; 9:52-63.
⁴
Cecchini M, Vuik S. The heavy burden of obesity. Paris: OECD; 2019.
⁵
Egger G, Swinburn B. An "ecological" approach to the obesity pandemic. BMJ 1997; 315(7106):477-480.
⁶
Di Cesare M, Soric M, Bovet P, Miranda JJ, Bhutta Z, Stevens GA, Laxmaiah A, Kengne AP, Bentham J. The epidemiological burden of obesity in childhood: a worldwide epidemic requiring urgent action. BMC Med 2019; 17(1):212.
⁷
Adom T, Kengne AP, De Villiers A, Puoane T. Association between school-level attributes and weight status of Ghanaian primary school children. BMC Public Health 2019; 19:577.
⁸
Trigueros R, Mínguez LA, González-Bernal JJ, Aguilar-Parra JM, Soto-Cámara R, Álvarez JF, Rocamora P. Physical Education Classes as a Precursor to the Mediterranean Diet and the Practice of Physical Activity. Nutrients 2020; 12(1):239.
⁹
Gallotta MC, Iazzoni S, Emerenziani GP, Meucci M, Migliaccio S, Guidetti L, Baldari C. Effects of combined physical education and nutritional programs on schoolchildren's healthy habits. PeerJ 2016; 4:e1880.
¹⁰
Jones RA, Hinkley T, Okely AD, Salmon J. Tracking physical activity and sedentary behavior in childhood: a systematic review. Am J Prev Med 2013; 44(6):651-658.
¹¹
Wu CL, Chang CK. Results from the Chinese Taipei (Taiwan) 2018 Report Card on physical activity for children and youth. J Exerc Sci Fit 2019; 17(1):8-13.
¹²
Silva DAS, Chaput JP, Katzmarzyk PT, Fogelholm M, Hu G, Maher C, Olds T, Onywera V, Sarmiento OL, Standage M, Tudor-Locke C, Tremblay MS. Physical Education Classes, Physical Activity, and Sedentary Behavior in Children. Med Sci Sports Exerc 2018; 50(5):995-1004.
¹³
Coledam DHC, Ferraiol PF, Greca JPA, Teixeira M, Oliveira AR. Physical education classes and health outcomes in brazilian students. Rev Paul Pediatr 2018; 36(2):192-198.
¹⁴
Jones D, Innerd A, Giles EL, Azevedo LB. Association between fundamental motor skills and physical activity in the early years: A systematic review and meta-analysis. J Sport Health Sci 2020; 9(6):542-552.
¹⁵
Love R, Adams J, van Sluijs EMF. Are school-based physical activity interventions effective and equitable? A meta-analysis of cluster randomized controlled trials with accelerometer-assessed activity. Obes Rev 2019; 20(6):859-870.
¹⁶
Mollborn S, Lawrence E. Family, Peer, and School Influences on Children's Developing Health Lifestyles. J Health Soc Behav 2018; 59(1):133-150.
¹⁷
Jurado-Castro JM, Gil-Campos M, Gonzalez-Gonzalez H, Llorente-Cantarero FJ. Evaluation of Physical Activity and Lifestyle Interventions Focused on School Children with Obesity Using Accelerometry: A Systematic Review and Meta-Analysis. Int J Environ Res Public Health 2020; 17(17):6031.
¹⁸
Rosas SR. Systems thinking and complexity: considerations for health promoting schools. Health Promot Int 2017; 32(2):301-311.
¹⁹
World Health Organization (WHO). World Medical Association Declaration of Helsinki. Ethical principles for medical research involving human subjects. Geneva: WHO; 2001.
²⁰
World Health Organization (WHO). Physical status: The use of and interpretation of anthropometry, Report of a WHO Expert Committee. Geneva: WHO; 1995.
²¹
Mélo EN, Barros M, Hardman C, Siqueira M, Wanderley Júnior R, Oliveira EJRBAF. Associação entre o ambiente da escola de educação infantil e o nível de atividade física de crianças pré-escolares. RBAFS 2013; 18(1):53-62.
²²
Fruchterman TMJ, Reingold EM. Graph drawing by force-directed placement. Software Pract Exper 1991; 21(11):1129-1164.
²³
Friedman J, Hastie T, Tibshirani R. Sparse inverse covariance estimation with the graphical lasso. Bioestatistics 2008; 9(3):432-441.
²⁴
Foygel R, Drton M. Extended Bayesian information criteria for Gaussian graphical models. Adv Neural Info Process Systems 2010; 23:2020-2028.
²⁵
Li L, Zhang S, Huang Y, Chen K. Sleep duration and obesity in children: A systematic review and meta-analysis of prospective cohort studies. J Paediatr Child Health 2017; 53(4):378-385.
²⁶
Mamrot P, Hanc T. The association of the executive functions with overweight and obesity indicators in children and adolescents: A literature review. Neurosci Biobehav Rev 2019; 107:59-68.
²⁷
Sommer A, Twig G. The Impact of Childhood and Adolescent Obesity on Cardiovascular Risk in Adulthood: a Systematic Review. Curr Diab Rep 2018; 18(10):91.
²⁸
Elmesmari R, Martin A, Reilly JJ, Paton JY. Comparison of accelerometer measured levels of physical activity and sedentary time between obese and non-obese children and adolescents: a systematic review. BMC Pediatr 2018; 18(1):106.
²⁹
Wickel EE, Belton S. School's out ... now what? Objective estimates of afterschool sedentary time and physical activity from childhood to adolescence. J Sci Med Sport 2016; 19(8):654-658.
³⁰
Heath GW, Parra DC, Sarmiento OL, Andersen LB, Owen N, Goenka S, Montes F, Brownson RC; Lancet Physical Activity Series Working Group. Evidence-based intervention in physical activity: lessons from around the world. Lancet 2012; 380(9838):272-281.
³¹
Trigueros R, Mínguez LA, González-Bernal JJ, Jahouh M, Soto-Camara R, Aguilar-Parra JM. Influence of Teaching Style on Physical Education Adolescents' Motivation and Health-Related Lifestyle. Nutrients 2019; 11(11):2594
³²
Ten Hoor GA, Rutten GM, Van Breukelen GJP, Kok G, Ruiter RAC, Meijer K, Kremers SPJ, Feron FJM, Crutzen R, Schols AMJW, Plasqui G. Strength exercises during physical education classes in secondary schools improve body composition: a cluster randomized controlled trial. Int J Behav Nutr Phys Act 2018; 15(1):92.
³³
Groffik D, Sigmund E, Frömel K, Chmelík F, Nováková Lokvencová P. The contribution of school breaks to the all-day physical activity of 9- and 10-year-old overweight and non-overweight children. Int J Public Health 2012; 57(4):711-718.
³⁴
Kobel S, Kettner S, Erkelenz N, Kesztyüs D, Steinacker JM. Does a higher incidence of break times in primary schools result in children being more physically active? J Sch Health 2015; 85(3):149-154.
³⁵
Henrique RS, Gomes TN, Tani G, Maia JAR. Association between body mass index and individual characteristics and the school context: a multilevel study with Portuguese children. J Pediatr (Rio J) 2018; 94(3):313-319.
³⁶
Hood NE, Colabianchi N, Terry-McElrath YM, O'Malley PM, Johnston LD. Physical activity breaks and facilities in US secondary schools. J Sch Health 2014; 84(11):697-705.
³⁷
Powell LM, Slater S, Chaloupka FJ, Harper D. Availability of physical activity-related facilities and neighborhood demographic and socioeconomic characteristics: a national study. Am J Public Health 2006; 96(9):1676-80.
³⁸
Goon S, Kontulainen S, Muhajarine N. Neighborhood Built Environment Measures and Association with Physical Activity and Sedentary Time in 9-14-Year-Old Children in Saskatoon, Canada. Int J Environ Res Public Health 2020; 17(11):3837.
³⁹
Raistenskis J, Sidlauskiene A, Strukcinskiene B, Ugur Baysal S, Buckus R. Physical activity and physical fitness in obese, overweight, and normal-weight children. Turk J Med Sci 2016; 46(2):443-450.
⁴⁰
Brug J. Order is needed to promote linear or quantum changes in nutrition and physical activity behaviors: a reaction to 'A chaotic view of behavior change' by Resnicow and Vaughan. Int J Behav Nutr Phys Act 2006; 3:29.
⁴¹
Carey G, Malbon E, Carey N, Joyce A, Crammond B, Carey AJB. Systems science and systems thinking for public health: a systematic review of the field. BMJ Open 2015; 5(12):e009002.
⁴²
Mabry PL, Marcus SE, Clark PI, Leischow SJ, Méndez D. Systems science: a revolution in public health policy research. Am J Public Health 2010; 100(7):1161-1163.
⁴³
Cooper H, Geyer R. Using 'complexity'for improving educational research in health care. J Soc Sci Med 2008; 67(1):177-182.
⁴⁴
Christakis NA, Fowler JH. The spread of obesity in a large social network over 32 years. N Engl J Med 2007; 357(4):370-379.
⁴⁵
Luke DA, Stamatakis KA. Systems science methods in public health: dynamics, networks, and agents. Annu Rev Public Health 2012; 33:357-376.

Publication Dates

Publication in this collection
17 June 2024
Date of issue
June 2024

History

Received
26 Apr 2023
Accepted
21 Aug 2023
Published
23 Aug 2023

This is an open-access article distributed under the terms of the Creative Commons Attribution License

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World Health Organization (WHO). World Medical Association Declaration of Helsinki. Ethical principles for medical research involving human subjects. Geneva: WHO; 2001.

[20] ²⁰
World Health Organization (WHO). Physical status: The use of and interpretation of anthropometry, Report of a WHO Expert Committee. Geneva: WHO; 1995.

[21] ²¹
Mélo EN, Barros M, Hardman C, Siqueira M, Wanderley Júnior R, Oliveira EJRBAF. Associação entre o ambiente da escola de educação infantil e o nível de atividade física de crianças pré-escolares. RBAFS 2013; 18(1):53-62.

[22] ²²
Fruchterman TMJ, Reingold EM. Graph drawing by force-directed placement. Software Pract Exper 1991; 21(11):1129-1164.

[23] ²³
Friedman J, Hastie T, Tibshirani R. Sparse inverse covariance estimation with the graphical lasso. Bioestatistics 2008; 9(3):432-441.

[24] ²⁴
Foygel R, Drton M. Extended Bayesian information criteria for Gaussian graphical models. Adv Neural Info Process Systems 2010; 23:2020-2028.

[25] ²⁵
Li L, Zhang S, Huang Y, Chen K. Sleep duration and obesity in children: A systematic review and meta-analysis of prospective cohort studies. J Paediatr Child Health 2017; 53(4):378-385.

[26] ²⁶
Mamrot P, Hanc T. The association of the executive functions with overweight and obesity indicators in children and adolescents: A literature review. Neurosci Biobehav Rev 2019; 107:59-68.

[27] ²⁷
Sommer A, Twig G. The Impact of Childhood and Adolescent Obesity on Cardiovascular Risk in Adulthood: a Systematic Review. Curr Diab Rep 2018; 18(10):91.

[28] ²⁸
Elmesmari R, Martin A, Reilly JJ, Paton JY. Comparison of accelerometer measured levels of physical activity and sedentary time between obese and non-obese children and adolescents: a systematic review. BMC Pediatr 2018; 18(1):106.

[29] ²⁹
Wickel EE, Belton S. School's out ... now what? Objective estimates of afterschool sedentary time and physical activity from childhood to adolescence. J Sci Med Sport 2016; 19(8):654-658.

[30] ³⁰
Heath GW, Parra DC, Sarmiento OL, Andersen LB, Owen N, Goenka S, Montes F, Brownson RC; Lancet Physical Activity Series Working Group. Evidence-based intervention in physical activity: lessons from around the world. Lancet 2012; 380(9838):272-281.

[31] ³¹
Trigueros R, Mínguez LA, González-Bernal JJ, Jahouh M, Soto-Camara R, Aguilar-Parra JM. Influence of Teaching Style on Physical Education Adolescents' Motivation and Health-Related Lifestyle. Nutrients 2019; 11(11):2594

[32] ³²
Ten Hoor GA, Rutten GM, Van Breukelen GJP, Kok G, Ruiter RAC, Meijer K, Kremers SPJ, Feron FJM, Crutzen R, Schols AMJW, Plasqui G. Strength exercises during physical education classes in secondary schools improve body composition: a cluster randomized controlled trial. Int J Behav Nutr Phys Act 2018; 15(1):92.

[33] ³³
Groffik D, Sigmund E, Frömel K, Chmelík F, Nováková Lokvencová P. The contribution of school breaks to the all-day physical activity of 9- and 10-year-old overweight and non-overweight children. Int J Public Health 2012; 57(4):711-718.

[34] ³⁴
Kobel S, Kettner S, Erkelenz N, Kesztyüs D, Steinacker JM. Does a higher incidence of break times in primary schools result in children being more physically active? J Sch Health 2015; 85(3):149-154.

[35] ³⁵
Henrique RS, Gomes TN, Tani G, Maia JAR. Association between body mass index and individual characteristics and the school context: a multilevel study with Portuguese children. J Pediatr (Rio J) 2018; 94(3):313-319.

[36] ³⁶
Hood NE, Colabianchi N, Terry-McElrath YM, O'Malley PM, Johnston LD. Physical activity breaks and facilities in US secondary schools. J Sch Health 2014; 84(11):697-705.

[37] ³⁷
Powell LM, Slater S, Chaloupka FJ, Harper D. Availability of physical activity-related facilities and neighborhood demographic and socioeconomic characteristics: a national study. Am J Public Health 2006; 96(9):1676-80.

[38] ³⁸
Goon S, Kontulainen S, Muhajarine N. Neighborhood Built Environment Measures and Association with Physical Activity and Sedentary Time in 9-14-Year-Old Children in Saskatoon, Canada. Int J Environ Res Public Health 2020; 17(11):3837.

[39] ³⁹
Raistenskis J, Sidlauskiene A, Strukcinskiene B, Ugur Baysal S, Buckus R. Physical activity and physical fitness in obese, overweight, and normal-weight children. Turk J Med Sci 2016; 46(2):443-450.

[40] ⁴⁰
Brug J. Order is needed to promote linear or quantum changes in nutrition and physical activity behaviors: a reaction to 'A chaotic view of behavior change' by Resnicow and Vaughan. Int J Behav Nutr Phys Act 2006; 3:29.

[41] ⁴¹
Carey G, Malbon E, Carey N, Joyce A, Crammond B, Carey AJB. Systems science and systems thinking for public health: a systematic review of the field. BMJ Open 2015; 5(12):e009002.

[42] ⁴²
Mabry PL, Marcus SE, Clark PI, Leischow SJ, Méndez D. Systems science: a revolution in public health policy research. Am J Public Health 2010; 100(7):1161-1163.

[43] ⁴³
Cooper H, Geyer R. Using 'complexity'for improving educational research in health care. J Soc Sci Med 2008; 67(1):177-182.

[44] ⁴⁴
Christakis NA, Fowler JH. The spread of obesity in a large social network over 32 years. N Engl J Med 2007; 357(4):370-379.

[45] ⁴⁵
Luke DA, Stamatakis KA. Systems science methods in public health: dynamics, networks, and agents. Annu Rev Public Health 2012; 33:357-376.

Variables	6-year-old		p*	7-year-old		p*	8-year-old		p*	9-year-old		p*	10-year-old		p*
Variables	Boys (n=9)	Girls (n=20)	p*	Boys (n=195)	Girls (n=187)	p*	Boys (n=243)	Girls (n=214)	p*	Boys (n=191)	Girls (n=192)	p*	Boys (n=699)	Girls (n=672)	p*
BMI			.260			.647			.294			.833			.561
Healthy (%)	21.6	73.9		51.6	48.4		54.4	45.6		50.2	49.8		51.4	48.6
Unhealthy (%)	50.0	50.0		48.4	51.6		48.5	51.5		48.9	51.1		49.3	50.7

Variables	BMI	Sex	Age	PEC	PET	Break duration	EPA	Sports court indoor	Playground
BMI	0.000
Sex	-0.212	0.000
Age	-0.387	-0.976	0.000
PEC	0.847	-0.270	-0.062	0.000
PET	0.349	0.700	0.641	0.180	0.000
Break duration	0.564	-0.315	-0.270	-0.499	-0.388	0.000
EPA	-0.492	-0.856	-0.942	0.171	0.386	-0.348	0.000
Sports court indoor	0.662	-0.386	-0.297	-0.671	-0.243	-0.976	-0.301	0.000
Playground	-0.557	0.052	-0.151	0.767	-0.473	-0.173	-0.470	0.039	0.000

Variable	Network
Variable	Betweenness	Closeness	Strength
Body Mass Index	0.894	2.239	1.230
Sex	-0.894	-0.132	0.481
Age	-0.894	-0.891	0.379
Physical Education classes	0.894	-0.585	-0.260
Physical Education teacher	-0.894	-0.560	-0.524
Break duration	0.000	-0.579	-0.096
Extracurricular Physical Activity	1.789	1.024	0.976
Sports court indoor	-0.894	-0.271	0.008
Playground	0.000	-0.244	-2.193

Saúde Pública

Saúde Pública

Association between the environment for physical activity in public schools and childhood obesity: a view in the light of complex systems

Associação entre ambiente para atividade física em escolas públicas e obesidade infantil: um olhar à luz de sistemas complexos

Abstract

Resumo

Introduction

Methods

Study design

Eligibility criteria and setting

Variables and protocols

Anthropometric measurements

PA environment at schools

Data analysis

Results

Discussion

Conclusion

References

Publication Dates

History