Can participation in sports during childhood influence physical activity in adulthood?

Maillane-Vanegas, Santiago; Orbolato, Rafael; Exuperio, Isabella Neto; Codogno, Jamile Sanches; Turi-Lynch, Bruna Camilo; Queiroz, Dayane Cristina; Christofaro, Diego G. Destro; Zanuto, Everton Alex Carvalho

doi:10.1590/S1980-6574201700SI0095

Abstract

Aims:

The promotion of sports participation during the early years of life is important not only because it promotes health during childhood and adolescence, but also because it has benefits in adulthood. This study was developed to identify the association between sports participation during the early years of life and adulthood, to analyze the non-participation in sports throughout life and to identify the correlates of non-participation in sports. DESIGN: Cross-sectional study.

Methods:

The sample was composed of 743 adults randomly selected in a medium-size Brazilian city. Non-participation in sports during childhood and adolescence was assessed through specific questions, and non-participation in sports in adulthood was assessed using the second section of Baecke questionnaire. Answering “no” in the three periods assessed (childhood, adolescence and adulthood) was characterized as non-participation in sports throughout life. Chronological age, sex, formal education, BMI, current job and ethnicity were considered covariates. Categorical data were expressed as rates and compared using chi-square test and binary logistic regression.

Results:

The prevalence of adults not engaged in sports throughout life was 58.5% (95% CI= 55.1 - 62.1). Females (OR = 2.41 [1.71 - 3.38]), those more advanced in age (OR = 3.29 [1.82-5.94]) and/or possessing a lower level of education (OR = 4.47 [2.45 - 8.17]) were associated with the non-engagement in sports.

Conclusion:

Non-participation in sports during childhood can influence non-participation in sports during adulthood, which is significantly affected by sex, age and education level.

Keywords:
health; exercise; childhood; adolescent; pediatrics

Introduction

The promotion of lifelong physical activity and a healthy lifestyle is among the main purposes of public health in many countries¹1 Pühse U, Gerber M. International comparison of physical education: concepts, problems, prospects: Meyer & Meyer Verlag; 2005.. Investments in programs promoting sports participation is usually based on the belief that physical activity is beneficial to youth health, that it becomes habitual over time, and that these positively influence health outcomes in the adult population. Many transitions and life changing events during the course of one’s life canaffect physical activity levels, and therefore, this habit is likely to vary in different phases of life²2 Tammelin T, Viikari JS, Raitakari OT. Tracking of physical activity from early childhood through youth into adulthood. Med Sci Sports Exerc. 2014;46(5):955-62..

Recently, sports participation was recognized by the International Society for Physical Activity and Health as “an investment that works” to promote physical activity (Trost, 2014). Additionally, studies indicate its potential to boost physical fitness, mental health and social behavior. Research also reveals how this behavior during youth can develop assets that endorse positive trajectories during life²²22 Mueller MK, Lewin-Bizan S, Urban JB. Youth activity involvement and positive youth development. Adv child Dev Behav. 2011;41:231-49..

In this perspective, the promotion of sports participation during the early years of life is important not only because it promotes health during childhood and adolescence³3 Cayres SU, de Lira FS, Machado-Rodrigues AM, Júnior IFF, Barbosa MF, Fernandes RA. The mediating role of physical inactivity on the relationship between inflammation and artery thickness in prepubertal adolescents. J Pediatr. 2015;166(4):924-9.

4 Cayres SU, Vanderlei LCM, Rodrigues AM, Silva MJC, Codogno JS, Barbosa MF, et al. Sports practice is related to parasympathetic activity in adolescents. Rev Paul Pediatr 2015;33(2):174-80.

5 Christofaro D, Ritti-Dias R, Chiolero A, Fernandes R, Casonatto J, Oliveira A. Physical activity is inversely associated with high blood pressure independently of overweight in Brazilian adolescents. Scandinavian journal of medicine & science in sports. Scand J Med Sci Sports. 2013 Jun;23(3):317-22.^-⁶6 Silva DR, Fernandes RA, Ohara D, Collings PJ, Souza MF, Tomeleri CM, et al. Correlates of sports practice, occupational and leisure-time physical activity in Brazilian adolescents. Am J Hum Biol. 2016 Jan-Feb;28(1):112-7. but also because it stimulates engagement in physical activity in adulthood.⁷7 Bélanger M, Sabiston CM, Barnett TA, O'Loughlin E, Ward S, Contreras G, et al. Number of years of participation in some, but not all, types of physical activity during adolescence predicts level of physical activity in adulthood: Results from a 13-year study. Int J Behav Nutr Phys Act. 2015 Jun 10;12:76. From a preventive point of view, it is reasonable to believe that adults who participated in sports or attempted some kind of extracurricular activities (e.g. leisure, commuting by bicycle) from a younger age tend to have a healthier life, more so than those who did not participate in anything⁸8 Fernandes RA, Christofaro DGD, Casonatto J, Codogno JS, Rodrigues EQ, Cardoso ML, et al. Prevalence of dyslipidemia in individuals physically active during childhood, adolescence and adult age. Arq Bras Cardiol. 2011 Oct;97(4):317-23., enhancing the importance of sports participation in pediatric populations⁶6 Silva DR, Fernandes RA, Ohara D, Collings PJ, Souza MF, Tomeleri CM, et al. Correlates of sports practice, occupational and leisure-time physical activity in Brazilian adolescents. Am J Hum Biol. 2016 Jan-Feb;28(1):112-7.^,⁹9 Vanderlei FM, Vanderlei L, Bastos FN, Netto Júnior J, Pastre CM. Characteristics and associated factors with sports injuries among children and adolescents. Braz J Phys Ther. 2014 Nov-Dec;18(6):530-7.^,²³23 Elhakeem A, Hardy R, Bann D. Intergenerational social mobility and leisure-time physical activity in adulthood: a systematic review. J Epidemiol Community Health. 2017 Jul;71(7):673-680.. However, more information is needed about this field²⁴24 Mountjoy M. Health and fitness of young people: what is the role of sport? Br J Sports Med. 2011;45(11):837-8..

The identification of groups with a higher risk of being physically inactive during life is essential for elaborating public health decisions to decrease this unhealthy behavior⁶6 Silva DR, Fernandes RA, Ohara D, Collings PJ, Souza MF, Tomeleri CM, et al. Correlates of sports practice, occupational and leisure-time physical activity in Brazilian adolescents. Am J Hum Biol. 2016 Jan-Feb;28(1):112-7.. However, most studies have focused in sports participation in youth or in adults in separate ways, not looking into the tracking of sports participation from childhood to adulthood. Therefore, engagement in sports participation throughout life is an outcome poorly investigated, mainly in developing countries; even cross-sectional studies with a retrospective design are scarce^8,10,11 These studies also suggest the fact that sports participation significantly increases physical activity during adolescence and early adulthood. It should further be commented that these findings should be replicated globally in more populpations to improve the basis of all this evidence²⁵25 Telford RM, Telford RD, Cochrane T, Cunningham RB, Olive LS, Davey R. The influence of sport club participation on physical activity, fitness and body fat during childhood and adolescence: The LOOK Longitudinal Study. J Sci Med Sport. 2016;19(5):400-6..

Thus, the purposes of the present study were i) to identify the association between sports participation during the early years of life and adulthood, ii) to analyze the non-engagement in sports throughout life, as well as iii) to identify the correlates of non-engagement in sports in a randomly selected sample from a medium-size Brazilian city.

Methods

Sample and sampling

This cross-sectional study was conducted in 2012 in the city of Presidente Prudente, which is located in the western region of the state of Sao Paulo, the most industrialized state in Brazilian. The city has approximately 208,000 inhabitants and a human development index of 0.846.

The sample size was estimated considering that 50.7% of adults were physically inactive in childhood, adolescence and adulthood ⁸8 Fernandes RA, Christofaro DGD, Casonatto J, Codogno JS, Rodrigues EQ, Cardoso ML, et al. Prevalence of dyslipidemia in individuals physically active during childhood, adolescence and adult age. Arq Bras Cardiol. 2011 Oct;97(4):317-23., given an error of 4% and a significance of 5% (z = 1.96). Predicting future dropouts, an additional rate of 20% was added over the initial sample size. Therefore, a sample size of 720 participants was estimated to be representative. Inclusion criteria were defined: (i) age ≥18 years; and (ii) living for at least two years in their current house. The final sample size was composed of 743 adults.

Data collection was conducted in two stages. First, the city was stratified into five geographical regions (east, west, north, south and center), and through a random process, 20 streets and avenues were selected per neighborhood, totaling 170. For the second stage, six houses were randomly chosen from the streets and avenues previously selected. Data collection happened on Saturdays and Sunday (from 9:00 am to 6:00 pm) during ten consecutive weeks. All adults from the selected houses were eligible for the face-to-face interview.

Prior to implementation, the study was approved by the Ethics Committee Group from Sao Paulo State University (UNESP) Presidente Prudente, Brazil (CAAE: 07770112.3.0000.5402), and all subjects were asked to sign a standard consent form.

Non-engagement in sports throughout life

Sports participation during childhood and adolescence was analyzed using two questions⁸8 Fernandes RA, Christofaro DGD, Casonatto J, Codogno JS, Rodrigues EQ, Cardoso ML, et al. Prevalence of dyslipidemia in individuals physically active during childhood, adolescence and adult age. Arq Bras Cardiol. 2011 Oct;97(4):317-23.^,¹¹11 Fernandes RA, Zanesco A. Early physical activity promotes lower prevalence of chronic diseases in adulthood. Hypertens Res. 2010 Sep;33(9):926-31.: (i) “Outside school, were you ever engaged in any organized/supervised sport activities for at least one year from age 7 to 10 years old?”. If yes, the participant would select the sport: soccer, basketball, volleyball, handball, dance, other, and (ii) “Outside school, were you ever engaged in any organized/supervised sport activities for at least one year from age 11 to 17 years old?”. If yes, the participant would select the sport: soccer, basketball, volleyball, handball, dance, other.

Information concerning sports participation among adults was assessed using the second section of the questionnaire, developed by Baecke and colleagues¹²12 Baecke JA, Burema J, Frijters J. A short questionnaire for the measurement of habitual physical activity in epidemiological studies. Am J Clin Nutr. 1982 Nov;36(5):936-42. . Three aspects of exercise/sports participation was analyzed: i) intensity (low, moderate, or vigorous), ii) minutes per week (< 60 minutes/week; 60-120 minutes/week; 120-180 minutes/week; 180-240 minutes/week; > 240 minutes/week), and iii) previous time engaged (<1 month, 1-3 months, 4-6 months, 7-9 months, > 9 months). Participants were considered sufficiently active when they reported at least 180 minutes of exercise/sports per week with moderate or vigorous intensity over the last four months (4-6 months).

The main outcome of this study was the non-engagement in sports throughout life, characterized by lack of sports participation during the three phases of one’s lifespan considered in this article: childhood, adolescence and adulthood.

A pilot study was carried out in a subsample with similar characteristics (not included in the study [n= 20]) to assess reproducibility of the self-reported data (the second face-to-face interview was performed 14 days after the first interview). Physical activity during childhood (kappa index = 0.70; P-value = 0.001), adolescence (kappa index = 0.89; P-value = 0.001) and adulthood (rho = 0.88; P-value = 0.001) showed moderate to high scores of reproducibility.

Independent variables

Age, sex (male and female), level of education, body mass index (BMI), current job, and ethnicity (defined as white, black, oriental or other) were treated as covariates. Chronological age was structured as a categorical variable (18-29.9 years; 30-44.9 years; 45-59.9 years; ≥ 60 years), as well as level of education (<4 years; 5-8 years; high school; college or more). Participants self-reported body weight (kg) and height (m) during the face-to-face interview, and BMI was calculated as body weight divided by height squared (expressed as kg/m²). Overweight and obesity were identified as BMI between 25-29.90 kg/m² and BMI ≥30 kg/m², respectively.

Statistical Procedures

Categorical data were expressed as rates and compared using the chi-square test (Yates’ correction has been used in 2x2 contingency tables and linear trend was used in tables with other configurations). In the univariate model, the chi-square test assessed the association between independent variables and the dependent variable (non-participation in sports). Associations with P-value < 5% were selected to be included in the multivariable model using binary logistic regression (adjusted odds ratio [OR] and 95% confidence interval [95%CI]) and adjusted by potential confounders. Model-1 included sex and age as potential confounders; Model-2 included sex, age and level of education; and Model-3 included sex, age, level of education and current job. The significance level (P-value) was previously set at 5% and the statistical software BioEstat (version 5.0) was used for all analysis.

Results

The overall sample was composed of 743 participants (n _men= 288 [39%] and n _women = 455 [61%]; P-value = 0.001). Most participants were white (~83%) and completed at least high school (61.8%). 58.5% of the sample was overweight or obese (Table 1).

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Table 1
Summary of the general characteristics of the sample.

Sports participation during childhood and adolescence were reported by 26.1% and 27.6% of the sample, respectively (Figure 1, Panel A). Soccer was the most frequent sport reported in the childhood and adolescence periods of the participants of this study. Sports participation during adulthood was reported by 14.4%, while 24.5% were insufficiently active (<180min/week) and 61.1% reported no sports participation. A lack of sports participation during childhood and adolescence was associated with non-engagement in sports during adulthood (OR = 1.53 [1.01 to 2.36]) (Figure 1, Panel B).

Figure 1
Sports practice throughout life (Panel A) and association between sports practice in early life and adulthood (Panel B).

The non-participation in sports throughout life was an outcome highly observed (n = 435; 58.5% [95% CI = 55.1 to 62.1]) and it was associated with the females (OR = 2.42 [1.79 - 3.39]), higher age, the presence of a current job (OR = 2.06 [1.51 - 2.79]) and a lower level of education (OR = 7.59 [4.49 - 12.8]) in the crude model. On the other hand, overweight (P-value = 0.259) and ethnicity (P-value = 0.137) were not associated with non-engagement in sports (Table 2).

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Table 2
Association between non-participation in sports throughout life and independent variables.

In the multivariable model, the non-participation in sports throughout life remained associated with the female sex even after adjustment for potential confounders (OR = 2.41 [1.71 - 3.38]). Similar results were found regarding chronological age and lower level of education (5-8 years of formal education, OR = 5.28 [3.05 - 9.15]; ≤ 4 years of formal education, OR = 4.47 [2.45 - 8.17]). The multivariable model (Model - 3) had an adequate goodness-of-fit, which was assessed with the Hosmer and Lemeshow’s test (P-value = 0.883) (Table 3).

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Table 3
Multivariable models for the association between non-participation in sports throughout life and independent variables among adults.

Discussion

This cross-sectional study identified that non-participation in sports during childhood can influence non-participation in sports during adulthood, which is significantly affected by sex, age and education level.

In our sample, non-participation in sports during the early years of life significantly affected sports participation or physical activity in adulthood. Longitudinal data showed that the amount of physical activity decreases from adolescence to adulthood, mainly for moderate-to-vigorous intensity physical activity,¹³13 Twisk JWR, Kemper HC, van MECHELEN W. Tracking of activity and fitness and the relationship with cardiovascular disease risk factors. Med Sci Sports Exerc. 2000 Aug;32(8):1455-61.^,¹⁴14 Van Mechelen W, Twisk JW, Post GB, Snel J, Kemper HC. Physical activity of young people: the Amsterdam Longitudinal Growth and Health Study. Med Sci Sports Exerc. 2000 Sep;32(9):1610-6. the most relevant type for the maintenance of health in adults. On the other hand, sports are usually incorporated into training routines performed at moderate-to-vigorous intensity, as well as it is performed expressively from childhood to adolescence⁶6 Silva DR, Fernandes RA, Ohara D, Collings PJ, Souza MF, Tomeleri CM, et al. Correlates of sports practice, occupational and leisure-time physical activity in Brazilian adolescents. Am J Hum Biol. 2016 Jan-Feb;28(1):112-7. and from adolescence to adulthood.⁷7 Bélanger M, Sabiston CM, Barnett TA, O'Loughlin E, Ward S, Contreras G, et al. Number of years of participation in some, but not all, types of physical activity during adolescence predicts level of physical activity in adulthood: Results from a 13-year study. Int J Behav Nutr Phys Act. 2015 Jun 10;12:76.

Older people report lower participation in sports in all periods of their lives.¹¹11 Fernandes RA, Zanesco A. Early physical activity promotes lower prevalence of chronic diseases in adulthood. Hypertens Res. 2010 Sep;33(9):926-31. In our study, 14.4% of the adults reached 180 min/week of participation in sports, a rate lower than observed in adults from England (41.2% among men and 33.9% among women in 2006).¹⁵15 Stamatakis E, Chaudhury M. Temporal trends inadults' sports participation patterns in England between 1997 and 2006: the Health Survey for England. Br J Sports Med. 2008 Nov;42(11):901-8. doi: 10.1136/bjsm.2008.048082.
https://doi.org/10.1136/bjsm.2008.048082... However, it is worth mentioning that sports participation in England did not have a cutoff point, as did our study. Economic determinants of habitual physical activity are different in developed and developing nations. However, age is a factor that has a similar effect on physical activity patterns in both developing and developed settings, in which the elderly present higher levels of physical inactivity¹⁰10 Azevedo MR, Araújo CL, Silva MCd, Hallal PC. Tracking of physical activity from adolescence to adulthood: a population-based study. Rev Saude Publica. 2007 Feb;41(1):69-75.^,¹⁵15 Stamatakis E, Chaudhury M. Temporal trends inadults' sports participation patterns in England between 1997 and 2006: the Health Survey for England. Br J Sports Med. 2008 Nov;42(11):901-8. doi: 10.1136/bjsm.2008.048082.
https://doi.org/10.1136/bjsm.2008.048082... . Older people also reported lower engagement in sports during childhood and adolescence when compared to younger groups¹⁰10 Azevedo MR, Araújo CL, Silva MCd, Hallal PC. Tracking of physical activity from adolescence to adulthood: a population-based study. Rev Saude Publica. 2007 Feb;41(1):69-75.^,¹⁵15 Stamatakis E, Chaudhury M. Temporal trends inadults' sports participation patterns in England between 1997 and 2006: the Health Survey for England. Br J Sports Med. 2008 Nov;42(11):901-8. doi: 10.1136/bjsm.2008.048082.
https://doi.org/10.1136/bjsm.2008.048082... . To support these findings, national data show that most Brazilians didn’t have access to sports while growing up, and when they did, it was usually soccer. This could explain why men are more likely to remain playing sports when compared to women²⁸28 Rossi P, Cândido CE, Sitta T, Jabur AC, Sanz C. Diagnostico Nacional do Esporte, Caderno 1. Ministério do Esporte, Brasília 2015..

Concerning these findings, it could be attributed to the effectiveness of governmental programs to promote physical activity/sports, which were initiated early in Europe and, therefore, their results can be verified in younger populations.¹⁶16 Van Tuyckom C, Scheerder J, Bracke P. Gender and age inequalities in regular sports participation: A cross-national study of 25 European countries. J Sports Sci. 2010 Aug;28(10):1077-84. Moreover, the observed results confirm that physical inactivity in older adults should be a concern and a target for public health organizations worldwide.

In agreement with our data, early and currently engagement in sports was positively associated with the males¹⁰10 Azevedo MR, Araújo CL, Silva MCd, Hallal PC. Tracking of physical activity from adolescence to adulthood: a population-based study. Rev Saude Publica. 2007 Feb;41(1):69-75. . The reasonable explanation for this finding seems to be in the higher support offered by the family nucleus for boys to engage in sports starting in the early years of life¹⁷17 Fernandes RA, Reichert FF, Monteiro HL, Júnior IFF, Cardoso JR, Ronque ERV, et al. Characteristics of family nucleus as correlates of regular participation in sports among adolescents. Int J Public Health. 2012 Apr;57(2):431-5.^,¹⁸18 Gonçalves H, Hallal PC, Amorim TC, Araújo CL, Menezes A. Sociocultural factors and physical activity level in early adolescence. Rev Panam Salud Publica. 2007 Oct;22(4):246-53. . It is rational to believe that this support influences behaviors related to sports participation in adulthood. Our findings are also similar to Howie, McVeigh, Smith, Straker²⁶26 Howie EK, McVeigh JA, Smith AJ, Straker LM. Organized Sport Trajectories from Childhood to Adolescence and Health Associations. Med Sci Sports Exerc. 2016;48(7):1331-9., who reveal that teasing among girls, body image, feeling that sports are not feminine coupled with the stereotypes of sex roles in society, increases the participation of boys and the reduces the participation girls in sports or physical activity from an early age²⁶26 Howie EK, McVeigh JA, Smith AJ, Straker LM. Organized Sport Trajectories from Childhood to Adolescence and Health Associations. Med Sci Sports Exerc. 2016;48(7):1331-9..

In our study, lower levels of education were associated with non-sports participation throughout life. In developing countries, education and socioeconomic status are strongly related, and the positive relationship between physical activity and socioeconomic status is clear in the adult population (wealthier adults are more likely to be active in leisure-time and less active at work, while poorer adults are less active in leisure-time and more active at work). Moreover, wealthier people are surrounded by places with more facilities to practice physical activity/sports¹⁹19 Wendel-Vos GW, Schuit AJ, De Niet R, Boshuizen HC, Saris W, Kromhout D. Factors of the physical environment associated with walking and bicycling. Med Sci Sports Exerc. 2004;36(4):725-30.. Furthermore, the demand for sports participation is significantly affected by financial variables (price payed for these activities)²⁰20 Anokye NK, Pokhrel S, Buxton M, Fox-Rushby J. The demand for sports and exercise: results from an illustrative survey. Eur J Health Econ. 2012 Jun;13(3):277-87..

Regarding the relationship between economic status and sports participation, unemployment is a condition that acts as a barrier, limiting the individual to engage in exercise/sports²⁶26 Howie EK, McVeigh JA, Smith AJ, Straker LM. Organized Sport Trajectories from Childhood to Adolescence and Health Associations. Med Sci Sports Exerc. 2016;48(7):1331-9.. Howie, McVeigh, Smith, Straker²⁶ emphasize that strategies for engaging people in physical activity/sports programs are necessary, and public policy should support or create awareness that sports participation does not need sophisticated places to happen, and its health benefits are valuable²⁶26 Howie EK, McVeigh JA, Smith AJ, Straker LM. Organized Sport Trajectories from Childhood to Adolescence and Health Associations. Med Sci Sports Exerc. 2016;48(7):1331-9..

It is plausible to believe that the poorest children who are not practicing sports (poorer boys and girls have less access to sport facilities and devices) would have a higher likelihood of becoming inactive adults. Stalsberg and Pedersen²¹21 Stalsberg R, Pedersen AV. Effects of socioeconomic status on the physical activity in adolescents: a systematic review of the evidence. Scandinavian journal of medicine & science in sports. Scand J Med Sci Sports. 2010 Jun;20(3):368-83., in a systematic review, identified a relationship between socioeconomic status and physical activity in adolescents, but the inconsistency of the methods to measure these variables in their research limits a clear understanding of the issue. In fact, more studies about this subject are necessary to understand clearly “how”/”why” this association happens, but apparently socioeconomic status plays a significant role in the maintenance of physical activity levels from childhood to adulthood. Therefore, this specific finding highlighted the relevance of actions promoting sports participation/physical activity in groups of lower economic status, independent of age.

Limitations must be recognized. Errors in recollection may occur when assessing sports participation in early life. The different criteria used to determine non-participation in sports in childhood/adolescence and adulthood are also a limitation, as well as sample size randomization and calculation, which did not consider demographic data. Moreover, our pilot study identified moderate-to-high reproducibility for early sports participation.

Conclusion

In summary, we found significant association between non-participation in sports during the early years of life and non-participation in sports during adulthood. Moreover, our study identified a high occurrence of non-participation in sports throughout life, which seems to be a relevant public health problem among women, older people and people with lower economic status.

Acknowledgments

S.M. Vanegas elaborated the article, generated the results and wrote the manuscript; Orbolato R., Exuperio I. N., B.C. Turi-Lynch, J.S. Condogno, D. C. Queiroz, D.D. Christofaro, E.C. Zanuto contributed to the writing of the manuscript.

Funding: This work was supported by Brazilian Ministry of Science and Technology.

References

¹
Pühse U, Gerber M. International comparison of physical education: concepts, problems, prospects: Meyer & Meyer Verlag; 2005.
²
Tammelin T, Viikari JS, Raitakari OT. Tracking of physical activity from early childhood through youth into adulthood. Med Sci Sports Exerc. 2014;46(5):955-62.
³
Cayres SU, de Lira FS, Machado-Rodrigues AM, Júnior IFF, Barbosa MF, Fernandes RA. The mediating role of physical inactivity on the relationship between inflammation and artery thickness in prepubertal adolescents. J Pediatr. 2015;166(4):924-9.
⁴
Cayres SU, Vanderlei LCM, Rodrigues AM, Silva MJC, Codogno JS, Barbosa MF, et al. Sports practice is related to parasympathetic activity in adolescents. Rev Paul Pediatr 2015;33(2):174-80.
⁵
Christofaro D, Ritti-Dias R, Chiolero A, Fernandes R, Casonatto J, Oliveira A. Physical activity is inversely associated with high blood pressure independently of overweight in Brazilian adolescents. Scandinavian journal of medicine & science in sports. Scand J Med Sci Sports. 2013 Jun;23(3):317-22.
⁶
Silva DR, Fernandes RA, Ohara D, Collings PJ, Souza MF, Tomeleri CM, et al. Correlates of sports practice, occupational and leisure-time physical activity in Brazilian adolescents. Am J Hum Biol. 2016 Jan-Feb;28(1):112-7.
⁷
Bélanger M, Sabiston CM, Barnett TA, O'Loughlin E, Ward S, Contreras G, et al. Number of years of participation in some, but not all, types of physical activity during adolescence predicts level of physical activity in adulthood: Results from a 13-year study. Int J Behav Nutr Phys Act. 2015 Jun 10;12:76.
⁸
Fernandes RA, Christofaro DGD, Casonatto J, Codogno JS, Rodrigues EQ, Cardoso ML, et al. Prevalence of dyslipidemia in individuals physically active during childhood, adolescence and adult age. Arq Bras Cardiol. 2011 Oct;97(4):317-23.
⁹
Vanderlei FM, Vanderlei L, Bastos FN, Netto Júnior J, Pastre CM. Characteristics and associated factors with sports injuries among children and adolescents. Braz J Phys Ther. 2014 Nov-Dec;18(6):530-7.
¹⁰
Azevedo MR, Araújo CL, Silva MCd, Hallal PC. Tracking of physical activity from adolescence to adulthood: a population-based study. Rev Saude Publica. 2007 Feb;41(1):69-75.
¹¹
Fernandes RA, Zanesco A. Early physical activity promotes lower prevalence of chronic diseases in adulthood. Hypertens Res. 2010 Sep;33(9):926-31.
¹²
Baecke JA, Burema J, Frijters J. A short questionnaire for the measurement of habitual physical activity in epidemiological studies. Am J Clin Nutr. 1982 Nov;36(5):936-42.
¹³
Twisk JWR, Kemper HC, van MECHELEN W. Tracking of activity and fitness and the relationship with cardiovascular disease risk factors. Med Sci Sports Exerc. 2000 Aug;32(8):1455-61.
¹⁴
Van Mechelen W, Twisk JW, Post GB, Snel J, Kemper HC. Physical activity of young people: the Amsterdam Longitudinal Growth and Health Study. Med Sci Sports Exerc. 2000 Sep;32(9):1610-6.
¹⁵
Stamatakis E, Chaudhury M. Temporal trends inadults' sports participation patterns in England between 1997 and 2006: the Health Survey for England. Br J Sports Med. 2008 Nov;42(11):901-8. doi: 10.1136/bjsm.2008.048082.
» https://doi.org/10.1136/bjsm.2008.048082
¹⁶
Van Tuyckom C, Scheerder J, Bracke P. Gender and age inequalities in regular sports participation: A cross-national study of 25 European countries. J Sports Sci. 2010 Aug;28(10):1077-84.
¹⁷
Fernandes RA, Reichert FF, Monteiro HL, Júnior IFF, Cardoso JR, Ronque ERV, et al. Characteristics of family nucleus as correlates of regular participation in sports among adolescents. Int J Public Health. 2012 Apr;57(2):431-5.
¹⁸
Gonçalves H, Hallal PC, Amorim TC, Araújo CL, Menezes A. Sociocultural factors and physical activity level in early adolescence. Rev Panam Salud Publica. 2007 Oct;22(4):246-53.
¹⁹
Wendel-Vos GW, Schuit AJ, De Niet R, Boshuizen HC, Saris W, Kromhout D. Factors of the physical environment associated with walking and bicycling. Med Sci Sports Exerc. 2004;36(4):725-30.
²⁰
Anokye NK, Pokhrel S, Buxton M, Fox-Rushby J. The demand for sports and exercise: results from an illustrative survey. Eur J Health Econ. 2012 Jun;13(3):277-87.
²¹
Stalsberg R, Pedersen AV. Effects of socioeconomic status on the physical activity in adolescents: a systematic review of the evidence. Scandinavian journal of medicine & science in sports. Scand J Med Sci Sports. 2010 Jun;20(3):368-83.
²²
Mueller MK, Lewin-Bizan S, Urban JB. Youth activity involvement and positive youth development. Adv child Dev Behav. 2011;41:231-49.
²³
Elhakeem A, Hardy R, Bann D. Intergenerational social mobility and leisure-time physical activity in adulthood: a systematic review. J Epidemiol Community Health. 2017 Jul;71(7):673-680.
²⁴
Mountjoy M. Health and fitness of young people: what is the role of sport? Br J Sports Med. 2011;45(11):837-8.
²⁵
Telford RM, Telford RD, Cochrane T, Cunningham RB, Olive LS, Davey R. The influence of sport club participation on physical activity, fitness and body fat during childhood and adolescence: The LOOK Longitudinal Study. J Sci Med Sport. 2016;19(5):400-6.
²⁶
Howie EK, McVeigh JA, Smith AJ, Straker LM. Organized Sport Trajectories from Childhood to Adolescence and Health Associations. Med Sci Sports Exerc. 2016;48(7):1331-9.
²⁷
Armstrong, N., & Van Mechelen, W. (2008). Paediatric exercise science and medicine: Oxford University Press.
²⁸
Rossi P, Cândido CE, Sitta T, Jabur AC, Sanz C. Diagnostico Nacional do Esporte, Caderno 1. Ministério do Esporte, Brasília 2015.

Publication Dates

Publication in this collection
2017

History

Received
30 June 2017
Accepted
22 Sept 2017

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

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	General characteristics
Variables	n (%)	(% _95%CI)
Sex
Male	288 (38.8)	(35.2 to 42.4)
Female	455 (61.2)	(57.7 to 64.7)
Age
18-29.9 years	110 (14.8)	(12.2 to 17.3)
30-44.9 years	192 (25.8)	(22.6 to 28.9)
45-59.9 years	212 (28.5)	(25.2 to 31.7)
≥60 years	229 (30.9)	(27.5 to 34.1)
Ethnicity
White	616 (82.9)	(80.2 to 85.6)
Black	83 (11.2)	(8.9 to 13.4)
Oriental	28 (3.8)	(2.4 to 5.1)
Other	16 (2.2)	(1.1 to 3.2)
Level of education
< 4 years	155 (20.8)	(17.9 to 23.7)
5-8 years	129 (17.4)	(14.6 to 20.1)
High School	292 (39.3)	(35.7 to 42.8)
College or more	167 (22.5)	(19.4 to 25.4)
Current Job
Yes	437 (58.8)	(55.2 to 62.3)
No	306 (41.2)	(37.6 to 44.7)
Overweight
Normal weight	308 (41.5)	(37.9 to 45.1)
Overweight	260 (35.1)	(31.5 to 38.4)
Obesity	175 (23.4)	(20.5 to 26.6)
Sports participation
Childhood	193 (26.1)	(22.8 to 29.1)
Adolescence	205 (27.6)	(24.3 to 30.8)
Adulthood	107 (14.4)	(11.8 to 16.9)

	Outcome: non-participation in sports throughout life
	Chi-square test		Logistic Regression
Independent Variables	n (%)	P - value	OR _crude (OR_95%CI )
Sex		0.001
Male	131 (45.5)		1.00
Female	304 (67)		2.42 (1.79 - 3.39)
Age		0.001
18-29.9 years	34 (30.9)		1.00
30-44.9 years	98 (51)		2.33 (1.42 - 3.81)
45-59.9 years	132 (62.3)		3.68 (2.25 - 6.02)
≥ 60 years	171 (75.3)		6.82 (4.12 - 11.3)
Ethnicity		0.137
White	355 (57.6)		1.00
Black	51 (61.4)		1.17 (0.73 - 1.87)
Oriental	16 (57.1)		0.98 (0.45 - 2.10)
Other	13 (81.3)		3.18 (0.89 - 11.2)
Level of education		0.001
< 4 years	129 (83.2)		7.59 (4.49 - 12.8)
5-8 years	103 (79.8)		6.06 (3.56 - 10.3)
High School	137 (46.9)		1.35 (0.91 - 1.99)
College or more	66 (39.5)		1.00
Current Job		0.001
Yes	225 (51.5)		1.00
No	210 (68.6)		2.06 (1.51 - 2.79)
Overweight		0.259
Normal weight	178 (57.8)		1.00
Overweight	144 (55.4)		0.90 (0.65 - 1.26)
Obesity	111 (64.2)		1.30 (0.89 - 1.92)

	Model - 1	Model - 2	Model - 3*
Independent Variables	OR (OR_95%CI )	OR (OR_95%CI )	OR (OR_95%CI )
Sex
Male	1.00	1.00	1.00
Female	2.52 (1.83 - 3.47)	2.45 (1.75 - 3.42)	2.41 (1.71 - 3.38)
Age
18-29.9 years	1.00	1.00	1.00
30-44.9 years	2.32 (1.40 - 3.86)	1.83 (1.08 - 3.10)	1.89 (1.11 - 3.22)
45-60 years	3.57 (2.16 - 5.90)	2.61 (1.55 - 4.41)	2.65 (1.57 - 4.48)
≥ 60 years	7.00 (4.17 - 11.7)	3.43 (1.92 - 6.13)	3.29 (1.82 - 5.94)
Level of education	---
≤ 4 years	---	4.62 (2.55 - 8.39)	4.47 (2.45 - 8.17)
5-8 years	---	5.35 (3.09 - 9.27)	5.28 (3.05 - 9.15)
High School	---	1.39 (0.93 - 2.09)	1.37 (0.78 - 1.69)
College or more	---	1.00	1.00
Current Job	---	---
Yes	---	---	1.00
No	---	---	1.15 (0.78 - 1.69)

Brasil

Brasil

Can participation in sports during childhood influence physical activity in adulthood?

Abstract

Aims:

Methods:

Results:

Conclusion:

Introduction

Methods

Sample and sampling

Non-engagement in sports throughout life

Independent variables

Statistical Procedures

Results

Discussion

Conclusion

Acknowledgments

References

Publication Dates

History