SciELO - Scientific Electronic Library Online

 
vol.27THE “PROGRAMA SEGUNDO TEMPO” IN BRAZILIAN MUNICIPALITIES: OUTCOME INDICATORS IN MACROSYSTEMANALYSIS OF THE COMPLEXITY OF TE WAZA TECHNIQUES OF JUDO BELONGING TO GOKYO author indexsubject indexarticles search
Home Pagealphabetic serial listing  

Services on Demand

Journal

Article

Indicators

Related links

Share


Journal of Physical Education

On-line version ISSN 2448-2455

J. Phys. Educ. vol.27  Maringá  2016  Epub Mar 20, 2017

https://doi.org/10.4025/jphyseduc.v27i1.2755 

Artigo Original

SEDENTARY BEHAVIOR AT LEISURE TIME AND ITS ASSOCIATION WITH PHYSICAL ACTIVITY IN SCHOOL CONTEXT OF CHILDREN IN SOUTHERN BRAZIL

COMPORTAMENTO SEDENTÁRIO NO LAZER E SUA ASSOCIAÇÃO COM ATIVIDADE FÍSICA NO CONTEXTO ESCOLAR DE CRIANÇAS NO SUL DO BRASIL

Marina Christofoletti1 

Giovâni Firpo Del Duca1 

Lays Tomazoni Gripa1 

Maria Alice Altenburg de Assis1 

1Universidade Federal de Santa catarina, Florianópolis-SC,Brasil.


ABSTRACT

The aim was to investigate the prevalence of sedentary behavior during leisure time and its association with demographic indicators, period and the physical activity at the school setting among children from public elementary schools in Florianópolis, SC. The instrument applied to a representative sample of schoolchildren in grades 2 through 5 was the online Web-CAAFE questionnaire, with indications of activities performed and the foods consumed on the previous day. A total of 1,831 children were investigated (8.75 years [SD±1.03]; 52.2% males), the sedentary behavior during leisure time was 56.1% (95%CI: 51.1; 61.1). There was an association between the outcome and the increase in age (seven years: PR 1.00; 8 years: PR 1.23; 9 years: PR 1.40; 10 years: PR 1.45; p<0.001) and physical inactivity during class time (PR 1.36 [95%CI: 1.21; 1.52]). The closeness to adolescence and lack of physical activity in the school environment were aspects related to the adoption of sedentary behavior.

Keywords: Child; Sedentary lifestyle; School.

RESUMO

O objetivo foi investigar a prevalência de comportamento sedentário no lazer e sua associação com indicadores demográficos, turno de estudo e atividade física no contexto escolar de crianças da rede municipal de ensino de Florianópolis, SC. O instrumento utilizado na amostra representativa de escolares do 2º ao 5º ano foi o questionário online Web-CAAFE, com indicações de atividades realizadas e alimentos consumidos no dia anterior. Dentre as 1831 crianças investigadas (8,75 anos [DP±1,03]; 52,2% sexo masculino), o comportamento sedentário no lazer foi de 56,1% (IC95%: 51,1; 61,1). Verificou-se uma associação do desfecho com o aumento da idade (7 anos: RP 1,00; 8 anos: RP 1,23; 9 anos: RP 1,40; 10 anos: RP 1,45; p<0,001) e com a inatividade física no turno de estudo (RP 1,36 [IC95%: 1,21; 1,52]). Conclui-se que a proximidade com a adolescência e a falta de atividade física no contexto escolar foram aspectos relacionados com a adoção de comportamento sedentário.

Palavras-chave: Criança; Estilo de vida sedentário; Escola.

Introduction

Sedentary behavior is characterized by performing cognitive activities, sitting or lying down, with no change in energy expenditure beyond resting values1. Activities such as watching TV, playing video games, using a computer and other electronic equipment are examples of such behavior, which has become attractive at increasingly early ages, notably in childhood. This finding is reinforced by the easy access to the digital environment, as well as the reduction of levels of public safety and the lower supply of physical activity in the school environment2,3. Among the negative consequences of the sedentary behavior in children's health, we highlight the greater probability of overweight2,4, as well as the early occurrence of chronic non-communicable diseases5,6.

An important alternative for reducing the sedentary behavior is the practice of physical activity. Some studies have shown that the level of physical activity in children is associated with academic performance7,8 and with indicators of physical fitness, which may result in adopting a healthier lifestyle throughout life7,9. The fact that the impacts caused by physical activity and sedentary behavior are different10, reinforces that these constructs need to be studied in a complementary way to achieve more concrete results11 in order to identify where interventions can be more effective and efficient.

With the aim of expanding opportunities of a physically active lifestyle since childhood, schools emerge as an environment of relevant applicability, specially Physical Education classes within the school curriculum12,13. Opportunities for encouraging an active lifestyle can be found within different contexts, among which are Physical Education classes, structured physical activity programs, ways of going to school and even recreation activities14.

The complexity of factors associated with sedentary behavior in childhood, and its future repercussions throughout life, reinforce the importance of studies on this behavior with physical activity in schoolchildren, proposing their coexistence. However, there is a gap regarding the measurement and identification of these behaviors adopted in the first years of formal education. Therefore, the objective of this study was to investigate the prevalence of sedentary behavior in leisure time and its association with demographic indicators, school period and physical activity within the school context in children of the municipal schools of Florianópolis, SC.

Methodological procedures

This is a cross-sectional study with a representative sample of schoolchildren from 2nd to 5th grade of Florianópolis Municipal Teaching Network, Santa Catarina. Data were collected from August to October 2013, through the Food Consumption and Physical Activity of Schoolchildren Monitoring System (Consumo Alimentar e Atividade Física de Escolares (Web-CAAFE)). Thirty-four out of a total of 36 municipal schools participated in the study. Two were excluded due to the lack of computer labs or lack of access to the internet, considering that the measurement should be carried out in the school. The sampling process consisted in the random selection of four classes, one class from each school grade (2nd to 5th grade) in each participating school. The sample calculation considered 50% as the expected outcome prevalence, with 3% as the confidence limit and a delineation effect of 2.5. Thus, the expected sample was 2,665 students.

The instrument used (Web-CAAFE) was designed based on focus group15,16, usability17 and validity of the sections of food consumption18 and physical activity19. As for the reproducibility of physical activity and sedentary behaviors, the questionnaire was applied twice in the same day, with the agreement verified in 28 of the 32 existing activities through the McNemar test19. The Web-CAAFE was structured in an illustrative and interactive way allowing students to self-report on the computer the activities performed and the food consumed on the previous day. The CAAFE operating flow can be viewed at http://www.caafe.ufsc.br/portal/9/detalhes.

In this study, trained researchers followed a standardized protocol to provide instructions for completing the questionnaire, with the aid of two banners that presented illustrations of food and physical activities. The questionnaire filling, in the classroom, initially had, at least, one researcher. Then, students went to the computer lab, accompanied by the researcher and they individually answered the questionnaire. Students were instructed to request assistance from the researcher in case of having difficulties to fill in the questionnaire. Data collection was carried out Monday through Friday, providing data on sedentary behavior and physical activity for a weekend day (Sunday) and four weekdays (Monday to Thursday). Therefore, the children who answered the questionnaire on Monday reported their Sunday activities and these data were treated as missings (34.6%) due to lack of information regarding the school period.

The study outcome was obtained by the screen with the question: "Click on the activities that you did yesterday morning/afternoon", considered according to the school period. As an answer, the software showed screens with 32 illustrative icons, which correspond to 23 physical activities (including domestic activities) and nine sedentary activities in three periods of the day (morning, afternoon and night). Thus, sedentary behavior in the counter-period was defined as reporting at least one sedentary behavior out of nine possibilities (studying/drawing, watching TV, using the computer, playing video games, listening to music, playing on the cell phone, playing with dolls, toy cars, board games).

The sociodemographic variables investigated were: gender (male and female), age (7, 8, 9 and 10 years) and school period (morning or afternoon). As for the physical activity indicators in the school context, the type of travel to school was defined by the questions: "How did you come to school yesterday?" And "How did you get home yesterday?". Children who reported going to or returning from school on foot, bicycle or skateboard on, at least, one of the routes were considered active. The weekly number of Physical Education classes was reported by the school and the categorization of the variable respected the determination of at least three classes a week, according to the Official Curriculum Framework for Elementary Education20. Acceptance of Physical Education classes took into account the question: "What do you think of Physical Education classes?", which had five icons in a hedonic scale as answer options. A dichotomic recategorization was made regarding negative acceptance (extreme disgust and moderate disgust) and positive (extreme liking, moderate liking and indifferent). For the variable of practice of physical activity in the school period, the categories were created from the answers to the question: "Click on the activities you did yesterday morning/afternoon", categorized in: "Active, without Physical Education class; Active, with Physical Education class; Passive, regardless of Physical Education class".

We used the Stata software, version 13.0 (Stata Corporation, College Station, United States) to analyze the data. Descriptive statistics included absolute and relative frequencies (%), mean and standard deviation (SD). In the inferential statistics, Pearson's chi-square test was used in the crude analyzes and the Poisson regression in adjusted analyzes, taking into account the groups as conglomerates. The hierarchical model of analysis included the demographic variables and the school period in the first level, and the indicators of physical activity in the school in the second level, with the purpose of control of confounding. We used the backward selection strategy to select the variables, considering p≤0.20 to remain in the model. Results with p≤0.05 values were considered statistically significant. Results were expressed in prevalence ratios (PR) and respective 95% confidence intervals (95% CI).

This study was approved by the Ethics Committee on Human Research of Universidade Federal de Santa Catarina (Oppinion #2250/11). As it was a research with children, the informed consent form (ICF) was sent to the children’s parents/guardians prior to the data collection. The research was carried out only with students who presented the ICF signed on the day previously scheduled and who agreed to participate through oral consent.

Results

2,928 students were invited to participate in the study, of which 2,359 returned the consent form signed by their parents/guardians. Of these, 2,224 children accepted to participate in the study and performed the data collection (response percentage = 76.0%). For the analysis of this study, 1,831 schoolchildren, aged 7-10 years old at the time of data collection, were included. The participants’ mean age was 8.75 years (SD±1.03), the majority of students were male (52.2%) and attending the afternoon period (52.6%). As for the indicators of physical activity in the school, there was a predominance of the passive behavior regarding the school travel (51.2%), the occurrence of three or more Physical Education classes per week (70.6%) and positive acceptance (77.4%). A total of 35.8% of schoolchildren reported inactivity (passive travel to and from school) during their class period, regardless of whether or not they attended Physical Education classes the previous day. The sample characterization is described in Table 1.

Table 1 Sociodemographic characteristics and indicators of physical activity in the school context in schoolchildren aged 7 to 10 years in the municipal school system. Florianópolis, SC, Brazil, 2013 (n = 1,831). 

* Source: The authors

The analysis of the factors associated with the sedentary behavior in the counter-period is presented in Table 2.

Table 2 Crude and adjusted association between sociodemographic characteristics and physical activity indicators in the school context with sedentary behavior in the counter period in schoolchildren aged 7 to 10 years in the municipal school system. Florianópolis / SC, Brazil, 2013 (n = 1,831) 

Notas: PR (Prevalence Ratio); CI95% (Confidence Interval of 95%); %); P-value obtained by Wald test for: a Heterogeneity and b Trend; Poisson regression with adjustments by levels, being: Level 1: adjusted by gender, age and school period; Level 2: adjusted by at least one active travel to school, number of Physical Education classes, acceptance of Physical Education class and physical activities in the period.

Source: Authors

The prevalence of sedentary behavior in after-school periods was 56.1% (CI 95%: 51.1, 61.1). After the adjusted analysis, we observed a direct association of the outcome as age increased (7 years: RP 1.00, 8 years: RP 1.23, 9 years: RP 1.40, 10 years: RP 1.45; P <0.001) and also with physical inactivity during the school peeriod (RP 1.36 [CI 95%: 1.21, 1.52]). The other sociodemographic variables and indicators of physical activity in the school did not present a significant association with the sedentary behavior in the after-school period.

Discussion

This study indicated that the most children had a sedentary behavior in the after-school period, with emphasis on the oldest and those who were inactive during the school period. Studies analyzing sedentary behavior in countries with different economic characteristics found the same association with age, justified by the students' perception of the activities: physical activities were considered less attractive and activities related to the use of screen (computer, videogame, television, etc.) more attractive21,22. According to the literature review carried out by Guerra, Farias Júnior and Florindo23, high levels of body weight and lower levels of physical activity are risk factors associated to sedentary behavior. These results point toward a common direction in the school population in different realities: students are exposed to a technological, nutritional and physical activity transition, which allow them access to greater opportunities for sedentary behavior, altered eating habits and reduced physical activity.

The other socio-demographic variables, gender and school period, did not show a significant association with sedentary leisure behavior in schoolchildren from second to fifth grade. Thus, unlike studies performed with schoolchildren at more advanced grades than the present sample, the adoption of hypokinetic behaviors does not distinguish between gender in the pre-pubertal stage24. We noticed the influence of environmental and biological factors, such as gender and maturity, with behavioral variables. Hormonal changes, physical aptitude and increase of responsibilities taken are among the verified reasons8,24.

As for the indicators of physical activity within the school, the travel to school is a domain of physical activity that needs to be encouraged in children, since it plays an important role in the usual physical activities performed by this population, especially at older ages25. It seems that, since this is an age group that has just entered second childhood, few studies investigate on this area, due to the children’s dependence from family members on habitual transportation26,27. Our study showed no statistical difference in school travel, for there is a regulation that establishes the proximity between the child's/adolescent's domicile and the municipal school28. This is an opportunity for the professionals of education and public health, who should encourage an active behavior, considering the benefits it provides. A systematic review, which considered only the association of active travel to school with health-related physical abilities, pointed out these benefits, with statistical significance in body composition, flexibility, cardiorespiratory and muscular fitness29. However, some risks also seem to be linked to the reduced practice of physical activity in schoolchildren travel, which is characterized by a steady decrease30. Melo et al.30 discussed aspects related to the social and built environment, with emphasis on safety and accompaniment of the child on the way to school.

There was no association between the number of Physical Education classes (as well as its acceptance by students) and the sedentary behavior in the counter-period. National and international studies presented, through direct and indirect measures, the number of classes per week as a significant variable for the adoption of active or sedentary behaviors3,31. A possible explanation to justify the divergence of this information with the present study are the age groups (10 to 16 years)31. Thus, the problem of curricular reduction of Physical Education classes throughout formal education must be considered, due to the need for academic performance in earlier stages of education31, as well as the structure of Physical Education classes5. As an impact of this scenario on the health of schoolchildren, the replacement of mild to moderate physical activity practices, such as Physical Education classes, with sedentary behaviors, may lead to musculoskeletal and metabolic health problems32.

The literature reports that the increase in routine physical activity is related to the increase in Physical Education class attendance33, and that the commitment to classes are more evident in those who practice physical activity outside school34. In another study carried out in the city of Pelotas (RS) with students aged 10 to 12 years, sedentary behavior was associated with the school environment, with a higher prevalence according to the decrease of students’ participation in curricular Physical Education classes35. It is known that the school environment is conducive to reduction with sedentary behavior23; however, the present study did not find significant results involving the Physical Education class. This data instigates the discussion about the practice of physical activity in activities with and without structural organization, such as, for example, school break time.

Guedes and Guedes36 argue that there is a challenge in the school environment, seen as an important domain of physical activity in childhood. In it, the adoption of a healthier and physically active lifestyle may take place during and after the period of schooling, which deserves to be built and encouraged36. To this end, programs involving primarily exercises and physical activities, with proposals related to motor development and their respective skills and abilities, should be encouraged and carried out during and after school time, so that children carry the positive reflexes of these experiences throughout their lives34.

Among the limitations of the study, we first mention the exclusion of two city schools due to lack of a computer lab or Internet access. The sample did not reach the value estimated by the sample calculation, but the study was able to identify the associations investigated. Also, the self-report of the information collected through the web-based questionnaire could be identified, which may have underestimated or overestimated the responses of physically active and sedentary activities. However, this limitation pervades most of the studies that use questionnaires. The Web-CAAFE questionnaire was designed by formative research that included discussions with teachers and managers of the Municipal Education Network of Florianópolis15-17. In addition, the questionnaire was submitted to validity and reproducibility tests18,19. We would also like to point out that this is a cross-sectional study, which does not allow the cause-effect relationship between sedentary behavior and its behavioral and sociodemographic variables. However, cross-sectional researches are also important as to the representativeness of the researched population, with descriptive potential, ease of financial resources and statistical analysis.

The physical activities carried out on the school period, leisure period and on the travel to-from school presented in the questionnaire allowed, mostly, only the choice of the type of activity practiced, without controlling the variables that indicate frequency, intensity and duration of activities, reflecting a certain lack on the contribution of these domains for the total level of physical activity. It should be noted that the Web-CAAFE questionnaire was designed based on the cognitive abilities of 7 to 10-year-old children, whose developmental stage would not allow adequate response on the frequency, duration and intensity of physical activity7. Among the strengths of our study, we highlight the representative sample of schoolchildren in the municipal network, the tested and validated questionnaire, the specificity of the instrument for the target population, as well as its relevance to the presentation of an online version for this population in full technological transition.

When considering negative and positive aspects of the present study, we would appreciate and encourage suggestions of practical applications in the school environment to improve the educational reality applied to students between the second and fifth grade of elementary school. The practice of physical activity in the school environment has a protective factor regardless of the existence of structured activities, which presuppose the presence of safe and perceptible environments by the students to carry out physical activity, in order to reflect in lower sedentary leisure behaviors.

Conclusions

Based on the findings presented in this study, the proximity to adolescence and the lack of physical activity within the school context are aspects strongly related to the sedentary behavior in the school counter-shift. Therefore, the importance of the school to a healthier lifestyle is determinant, through stimuli of physical activities that lead to the enjoyment and the autonomy for these practices in moments of leisure. This way, we encourage future studies to use this data to support practical applications that are intended to promote health interventions within this context.

References

1. Pearson N, Biddle SJH. Sedentary Behavior and Dietary Intake in Children, Adolescents, and Adults. A Systematic Review. Am J Prev Med 2011;41(2):178-188. [ Links ]

2. LeBlanc A. Why are children sedentary: an examination using the International Study of Childhood Obesity, Lifestyle and the Environment. Appl Physiol Nutr Metab 2016;41(7):790-790. [ Links ]

3. Malta DC, Sardinha LMV, Mendes I, Barreto SM, Giatti L, Castro IRRD et al. Prevalência de fatores de risco e proteção de doenças crônicas não transmissíveis em adolescentes: resultados da Pesquisa Nacional de Saúde do Escolar (PeNSE), Brasil, 2009. Ciênc Saúde Coletiva 2010;15(2):3009-3019. [ Links ]

4. Salmon JO, Ball K, Crawford D, Booth M, Telford A, Hume C et al. Reducing sedentary behavior and increasing physical activity among 10-year-old children: overview and process evaluation of the ‘Switch-Play’ intervention. Health Promot Int 2005; 20(1):7-17. [ Links ]

5. Costa BGG, Silva KS, George AM, Assis MAA. Sedentary behavior during school-time: Sociodemographic, weight status, physical education class, and school performance correlates in Brazilian schoolchildren. J Sci Med Sport, In Press, 2016. [ Links ]

6. Tremblay MS, LeBlanc AG, Kho ME, Saunders TJ, Larouche R, Colley RC et al. Systematic review of sedentary behavior and health indicators in school-aged children and youth. Int J Behav Nutr Phys Act 2011;8(98):1-22. [ Links ]

7. Bracco MM, Carvalho KMBD, Bottoni A, Nimer M, Gagliannone CP, Taddei JADAC et al. Atividade Física na Infância e Adolescência: Impacto na Saúde Pública. Rev Ciênc Méd 2003;12(1):89-97. [ Links ]

8. Silva DAS, Silva RJS, Petroski EL. Comportamento Sedentário no Recreio Escolar e Fatores Sociodemográficos Associados. Rev Educ Fís UEM 2010;21(2):255-261. [ Links ]

9. Longmuir PE, Colley RC, Wherley VA, Tremblay MS. Canadian Society for Exercise Physiology position stand: Benefit and risk for promoting childhood physical activity. Appl Physiol Nutr Metab 2014;39(11):1271-1279. [ Links ]

10. Pearson N, Braithwaite RE, Biddle SJ, Sluijs EMF, Atkin AJ. Associations between sedentary behavior and physical activity in children and adolescents: a meta‐analysis. Obes Ver 2014;15(8):666-675. [ Links ]

11. Tenório MCM, Barros MD, Tassitano RM, Bezerra J, Tenório JM, Hallal PC. Atividade física e comportamento sedentário em adolescentes estudantes do ensino médio. Rev Bras Epidemiol 2010;13(1):105-117. [ Links ]

12. Brito AKA, Silva FIC, França NM. Programas de intervenção nas escolas brasileiras: uma contribuição da escola para a educação em saúde. Saúde Debate 2012;36(95):624-632. [ Links ]

13. Heath GW, Parra DC, Sarmiento OL, Andersen LB, Owen N, Goenka S et al. Evidence-based intervention in physical activity: lessons from around the world. Lancet 2012; 380(9838):272-281. [ Links ]

14. World Health Organization (WHO). Global recommendations on physical activity for health. Genebra: WHO; 2010. [ Links ]

15. Costa FF, Davies VF, Schmoelz CP, Kuntz MGF, Assis MAA. Medida da atividade física de crianças: o que professores de educação física têm a nos dizer?. Rev Bras Ativ Fís Saúde 2012;17(1):286-292. [ Links ]

16. Davies VF, Kupek E, Assis MA, Engel R, Costa FF, Di Pietro PF et al. Qualitative analysis of the contributions of nutritionists to the development of an online instrument for monitoring the food intake of schoolchildren. J Hum Nutr Diet 2015; 28(s1):65-72. [ Links ]

17. Costa FF, Schmoelz CP, Davies VF, Di Pietro PF, Kupek E, de Assis MAA. Assessment of diet and physical activity of brazilian schoolchildren: usability testing of a web-based questionnaire. JMIR Res Protoc 2013; 2(2):e31. [ Links ]

18. Davies VF, Kupek E, Assis MA, Natal S, Di Pietro PR, Baranowski T. Validation of a web-based questionnaire to assess the dietary intake of Brazilian children aged 7-10 years. J Hum Nutr Diet 2015; 28(s1):93-102. [ Links ]

19. Costa FF. Desenvolvimento e avaliação de um questionário baseado na Web para avaliar o consumo alimentar e a atividade física de escolares. 2013. [Tese de Doutorado em Educação Física]. Florianópolis: Universidade Federal de Santa Catarina. Programa de Pós-Graduação em Educação Física; 2013. [ Links ]

20. Florianópolis. Resolução nº 007/98, 02 de Dezembro de 1998. Conselho Municipal de Educação. Grade curricular oficial para o ensino fundamental, da rede municipal de ensino de Florianópolis [Internet]. Florianópolis, SC; 1998. [acesso em 2015 out. 10]. Disponível em: Disponível em: http://www.pmf.sc.gov.br/arquivos/arquivos/pdf/05_07_2011_15.16.22.074ce65b0001d935bf9c48a3e3c88f15.pdfLinks ]

21. Fakhouri TH, Hughes JP, Brody DJ, Kit BK, Ogden CL. Physical Activity and Screen-Time Viewing Among Elementary School-Aged Children in the United States From 2009 to 2010. JAMA Pediatr 2013; 167(3):223-229. [ Links ]

22. Muthuri SK, Wachira LJM, LeBlanc AG, Francis CE, Sampson M, Onywera VO, Tremblay MS. Temporal Trends and Correlates of Physical Activity, Sedentary Behavior, and Physical Fitness among School-Aged Children in Sub-Saharan Africa: A Systematic Review. IRJPEH 2014; 11(1):3327- 3359. [ Links ]

23. Guerra PH, Farias Júnior JC, Florindo AA. Sedentary behavior in Brazilian children and adolescents: a systematic review. Rev Saúde Públ 2016; 50(9):1-15. [ Links ]

24. Metcalf BS, Hosking J, Jeffery AN, Henley WE, Wilkin TJ. Exploring the Adolescent Fall in Physical Activity: A 10-yr Cohort Study (EarlyBird 41). Med Sci Sports Exerc 2015; 47(10):2084-2092. [ Links ]

25. Carver A, Timperio AF, Hesketh KD, Ridgers ND, Salmon JL, Crawford DA. How is active transport associated with children’s and adolescents’ physical activity over time?. Int J Behav Nutr Phys Act 2011; 8(1):1-6. [ Links ]

26. Costa FF, Silva KS, Schmoelz CP, Campos VC, de Assis MAA. Longitudinal and cross-sectional changes in active commuting to school among Brazilian schoolchildren. Prev Med 2012; 55(3):212-214. [ Links ]

27. Rech RR, Rosa CO, Avrela PR, Halpern R, Costanzi CB, Bergmann MLA et al. Fatores associados ao deslocamento ativo em escolares. Rev Bras Ativ Fís Saúde 2013; 18(3):332-338. [ Links ]

28. Florianópolis. Minuta portaria nº 244/2015, 03 de Novembro de 2015. Secretaria Municipal de Educação. Normatiza a rematrícula e a matrícula do ensino fundamental anos iniciais e finais, bem como na modalidade da educação de jovens e adultos para o ano letivo de 2016 na rede municipal de ensino de Florianópolis [Internet]. Florianópolis, SC; 2015. [acesso em 2016 jul. 08]. Disponível em: Disponível em: http://www.pmf.sc.gov.br/arquivos/arquivos/pdf/23_11_2015_16.12.24.c9840bce9b79465782d3250a49870eef.pdfLinks ]

29. Lubans DR, Boreham CA, Kelly P, Foster CE. The relationship between active travel to school and health-related fitness in children and adolescents: A systematic review. Int J Behav Nutr Phys Act 2011;8(5):1-12. [ Links ]

30. Melo EN, Barros M, Reis RS, Hino AA, Santos CM, Junior F, Cazuza J. Is the environment near school associated with active commuting to school among preschoolers?. Rev Bras Cineantropom Desempenho Hum 2013;15(4):393-404. [ Links ]

31. Stralen MM, Yildirim M, Wulp A, Velde SJ, Verloigne M, Doessegger A et al. Measured sedentary time and physical activity during the school day of European 10- to 12-year-old children: The ENERGY project. J Sci Med Sport 2014;17(1):201-206. [ Links ]

32. Abbott RA, Straker LM, Mathiassen SE. Patterning of children's sedentary time at and away from school. Obesity (Silver Spring) 2013;21(1):E131-E133. [ Links ]

33. Silva KS, Nahas MV, Peres KGA, Lopes AS. Fatores associados à atividade física, comportamento sedentário e participação na Educação Física em estudantes do Ensino Médio em Santa Catarina, Brasil. Cad Saúde Pública 2009;25(10):2187-2200. [ Links ]

34. Andersen RE, Crespo CJ, Bartlett SJ, Cheskin LJ, Pratt M. Relationship of Physical Activity and Television Watching With Body Weight and Level of Fatness Among Children. JAMA Cardiol 1998; 279(12):938-942. [ Links ]

35. Hallal PC, Bertoldi AD, Gonçalves H, Victoria CG. Prevalência de sedentarismo e fatores associados em adolescentes de 10-12 anos de idade. Cad Saúde Pública 2006; 22(6):1277-1287. [ Links ]

36. Guedes JERP, Guedes DP. Características dos Programas de Educação Física Escolar. Rev Paul Educ Fís 1997; 11(1);49-62. [ Links ]

Received: April 06, 2016; Revised: July 03, 2016; Accepted: August 24, 2016

Author address: Marina Christofoletti. Campus Universitário, Secretaria de Pós-Graduação em Educação Física CEP: 88040-900 - Bairro Trindade, Florianópolis, Santa Catarina. Telefone: +55 (48) 3721-4774. E-mail: marinachriss@hotmail.com

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