Comparison of lumbar force between pubertal and post-pubertal adolescents: interference of physical growth, body fat and lifestyle.

Moraes, Mikael Seabra; Lima, Tiago Rodrigues de; Silva, Diego Augusto Santos

doi:10.1590/S1980-6574201700SI0098

Abstract

Aim:

To compare performance in the lumbar force test in pubertal and post-pubertal adolescents by controlling the interference of physical growth, body fat, screen time and physical activity.

Methods:

A cross-sectional study with 933 adolescents (492 girls) aged 14-19 from the city of São José, Brazil. Lumbar strength was assessed using the isometric lumbar extension test proposed by the Canadian Society of Exercise Physiology. Sexual maturation was classified according to Tanner’s criteria. Physical growth variables (age, body weight, stature, BMI), body fat (triceps and subscapular skinfolds), sedentary behavior based on screen time and overall physical activity were controlled in the Analysis of Covariance (ANCOVA), with a significance level of 5%.

Results:

Post-pubertal boys presented higher lumbar force compared to pubertal ones only when interference of BMI, body fat, screen time and physical activity was controlled. Pubertal girls presented higher lumbar force compared to post-pubertal ones, both when controlling the analysis for the studied variables and when not controlled by them.

Conclusion:

BMI, body fat, screen time and physical activity interfere in the difference in lumbar strength of boys, in which post-pubertal boys presented better performance in lumbar force compared to pubertal ones. Regardless of interference or not of these variables, pubertal girls presented better performance in lumbar force when compared to post-pubertal ones.

Keywords:
health behavior; lifestyle; muscle strength; physical fitness; puberty

Introduction

Muscle strength is a component of physical fitness, and different health conditions can be identified by specific musculoskeletal fitness tests, such as the lumbar force test¹1. Caspersen CJ, Powell KE, Christenson GM. Physical activity, exercise, and physical fitness: definitions and distinctions for health-related research. Public Health Rep. 1985;100(2):126-31.^,²2. Plowman SA. Top 10 research questions related to musculoskeletal physical fitness testing in children and adolescents. Res Q Exerc Sport. 2014;85(2):174-87.^,³3. Gledhill N, Jamnik V. The canadian physical activity, fitness and lifestyle approach (CPAFLA). Canadian Society for Exercise Physiology, Ottawa, Canada, 2003.. In addition to the importance of adequate levels of lumbar force for sports performance, lumbar force measurement is relevant in the clinical context, as it assists in the identification of risk factors and of bone, muscle and joint complications in the lumbar region⁴4. Hasler CC. Back pain during growth. Swiss Med Wkly. 2013;143(January):1-22.. Low levels of lumbar force in adolescents are directly associated with lower back pain, postural deviations, back pain and functional incapacity for the performance of activities of daily living⁵5. Dorneles RCG, Oliveira HL da R, Bergmann ML de A, Bergmann GG. Flexibility and muscle strength/resistance indicators and screening of low back pain in adolescents. Rev Bras Cineantropom Hum. 2016;18(1):93-102.

6. Graup S, de Araújo Bergmann ML, Bergmann GG. Prevalence of nonspecific lumbar pain and associated factors among adolescents in Uruguaiana, state of Rio Grande do Sul. Rev Bras Ortop. 2014;49(6):661-7.

7. Lemos AT de, Santos FR dos, Moreira RB, Machado DT, Braga FCC, Gaya ACA. Ocorrência de dor lombar e fatores associados em crianças e adolescentes de uma escola privada do sul do Brasil. Cad Saude Publica. 2013;29(11):2177-85.^-⁸8. Silva DAS, Gonçalves ECDA, Grigollo LR, Petroski EL. Fatores associados aos baixos níveis de força lombar em adolescentes do Sul do Brasil. Rev Paul Pediatr. 2014;32(4):360-6..

Adolescence is marked by rapid changes in body composition and physical growth due to biological maturation⁹9. Rogol AD, Clark PA, Roemmich JN. Growth and pubertal development in children and adolescents: effects of diet and physical activity. Am J Clin Nutr. 2000.72(Suppl):521-8.^,¹⁰10. Malina R, Bouchard C, Bar-Or O. Crescimento, maturação e atividade física. 2a edição. São Paulo: Phorte; 2009. 1-784.. As a result of these transformations, boys are more likely to increase muscle mass, while girls tend to increase body fat¹⁰10. Malina R, Bouchard C, Bar-Or O. Crescimento, maturação e atividade física. 2a edição. São Paulo: Phorte; 2009. 1-784.. The relationship between body fat and muscle strength has already been verified in literature²2. Plowman SA. Top 10 research questions related to musculoskeletal physical fitness testing in children and adolescents. Res Q Exerc Sport. 2014;85(2):174-87., in which excess body fat was directly associated with lower strength levels. The justification for this interrelationship would be the reduction of growth rate and muscle development as a result of the interaction of adipose tissue with sex hormones (testosterone and estrogen)¹⁰10. Malina R, Bouchard C, Bar-Or O. Crescimento, maturação e atividade física. 2a edição. São Paulo: Phorte; 2009. 1-784., resulting in decreased muscle mass and strength⁶6. Graup S, de Araújo Bergmann ML, Bergmann GG. Prevalence of nonspecific lumbar pain and associated factors among adolescents in Uruguaiana, state of Rio Grande do Sul. Rev Bras Ortop. 2014;49(6):661-7.^,⁸8. Silva DAS, Gonçalves ECDA, Grigollo LR, Petroski EL. Fatores associados aos baixos níveis de força lombar em adolescentes do Sul do Brasil. Rev Paul Pediatr. 2014;32(4):360-6..

In addition to the relationship between strength levels and biological variables, it has been well established in literature that the practice of physical activity and sedentary behavior influences on muscle strength¹¹11. Bacil EDA, Mazzardo Júnior O, Rech CR, Legnani RFDS, Campos W De. Atividade física e maturação biológica: uma revisão sistemática. Rev Paul Pediatr. 2015;33(1):114-21.^,¹²12. Bacil EDA, Piola TS, Watanabe PI, Da Silva MP, Legnani RFS, De Campos W. Maturação biológica e comportamento sedentário em crianças e adolescentes: uma revisão sistemática. J Phys Educ. 2016;27(1):2730.. Physical inactivity leads to less demand for stimuli to the skeletal muscles, which implies less development of muscle mass and strength²2. Plowman SA. Top 10 research questions related to musculoskeletal physical fitness testing in children and adolescents. Res Q Exerc Sport. 2014;85(2):174-87.^,¹³13. Taeymans J, Clarys P, Abidi H, Hebbelinck M, Duquet W. Developmental changes and predictability of static strength in individuals of different maturity: A 30-year longitudinal study. J Sports Sci. 2009;27(8):833-41.. The increase in the time spent in sedentary behaviors is another aspect that can directly contribute to body fat accumulation due to the reduction of energy expenditure ²2. Plowman SA. Top 10 research questions related to musculoskeletal physical fitness testing in children and adolescents. Res Q Exerc Sport. 2014;85(2):174-87., and loss of tone and muscular volume, resulting in the reduction of strength levels²2. Plowman SA. Top 10 research questions related to musculoskeletal physical fitness testing in children and adolescents. Res Q Exerc Sport. 2014;85(2):174-87.^,¹⁴14. Alvarez-bueno C, García-hermoso A. Association between physical activity, sedentary behavior, and fitness with health related quality of life in healthy children and adolescents: A protocol for a systematic review and meta-analysis. Medicine (Baltimore). 2017;96(12):1-5..

Several studies have investigated the relationship of muscular strength in adolescents according to sexual maturation; however, much of the content described in literature refers to strength performance in the upper limbs¹⁵15. Minatto G, Petroski EL, Silva DAS. Gordura corporal, aptidão muscular e cardiorrespiratória segundo a maturação sexual em adolescentes brasileiros de uma cidade de colonização germânica. Rev Paul Pediatr. 2013;31(2):189-97.

16. Silva DAS, Martins PC. Impact of physical growth, body adiposity and lifestyle on muscular strength and cardiorespiratory fitness of adolescents. J Bodyw Mov Ther. 2017;6-11.^-¹⁷17. Jones MA, Hitchen PJ, Stratton G. The importance of considering biological maturity when assessing physical fitness measures in girls and boys aged 10 to 16 years. Ann Hum Biol. 2000;27(1):57-65. and abdomen¹⁵15. Minatto G, Petroski EL, Silva DAS. Gordura corporal, aptidão muscular e cardiorrespiratória segundo a maturação sexual em adolescentes brasileiros de uma cidade de colonização germânica. Rev Paul Pediatr. 2013;31(2):189-97.. In addition, information regarding lumbar force in adolescents is scarce⁸8. Silva DAS, Gonçalves ECDA, Grigollo LR, Petroski EL. Fatores associados aos baixos níveis de força lombar em adolescentes do Sul do Brasil. Rev Paul Pediatr. 2014;32(4):360-6., although greater knowledge regarding lumbar force could help in the early diagnosis of health problems related to lower levels of lumbar force, such as musculoskeletal pain and postural deviations^8.

Thus, the aim of this study was to compare the performance of the lumbar force test between pubertal and post-pubertal adolescents by controlling the interference of physical growth, body fat, screen time and physical activity.

Material and Methods

This school-based epidemiological survey is part of the macroproject “Brazilian Guide of Assessment of Physical Fitness Related to Health and Life Habits - Stage I”. A cross-sectional study was carried out in the city of São José, Santa Catarina, Brazil. The municipality has a Human Development Index (HDI) of 0.809, with a life expectancy at birth of 77.81 years, a per capita income of R$ 1.157,43 and a GINI index of 0.44¹⁸18. Adaptada Idep. Atlas Brasil. Atlas do desenvolvimento humano no brasil. PNUD. Ipea, FJP, Brasília. Available from: http://atlasbrasil.org.br/2013/pt/perfil_m/sao-jose_sc [Accessed 8 April 2017].
http://atlasbrasil.org.br/2013/pt/perfil... .

The study population was comprised of 5,182 high school adolescents aged 14-19 from state public schools in the municipality of São José, Santa Catarina, Brazil, distributed in 11 eligible schools and 170 high school classes.

The sampling process was determined in two stages: 1) stratified by public high schools (n = 11); 2) groupings of classes considering the study period and grade (n = 170 classes). In stage two, all high school students who were present in the classroom on the days of data collection were invited to participate in the study. The probabilistic sample consisted of 1,132 students. Details on estimates for the sample size calculation and the entire sampling process (inclusion, exclusion and eligibility criteria) can be found in literature¹⁹19. Silva DAS, Tremblay M, Pelegrini A, dos Santos Silva RJ, Cabral de Oliveira AC, Petroski EL. Association between aerobic fitness and high blood pressure in adolescents in brazil: evidence for criterion-referenced cut-points. Pediatr Exerc Sci. 2016;28(2):312-20..

The study was approved by the Ethics Research Committee of the Federal University of Santa Catarina under Protocol 746.536 / 2014 and was developed from August to November 2014. Only adolescents who returned the informed consent form signed by parents (<18 years) or by themselves (≥18 years), together with the Consent Term signed by adolescents themselves, participated in the study.

The assessment team was previously trained and everyone was familiar with tests and instruments. Data collection took place in two stages. Firstly, adolescents answered the survey questionnaire in the classroom. Then, they were directed to the school gym or adequate place for body composition evaluation and physical fitness tests.

The dependent variable was lumbar force. The method used to assess lumbar strength levels was the isometric test proposed by the Canadian Society of Exercise Physiology³3. Gledhill N, Jamnik V. The canadian physical activity, fitness and lifestyle approach (CPAFLA). Canadian Society for Exercise Physiology, Ottawa, Canada, 2003.. The trunk extension and support test, dorsal isometry, was performed on a bench in which the participant remained in ventral decubitus position, with only the legs and hips resting on a bench, and with the legs supported by a rope prepared with padding in the posterior regions of the thighs and legs. At the signal of the evaluator, the participant lifted the trunk to the horizontal, remaining as long as possible in that position. The test was stopped when the subject was no longer able to remain in that position or held it for up to three minutes (180 seconds). For analyses, the values obtained in the lumbar force test were treated in a continuous manner.

Sexual maturation was evaluated according to the criteria proposed by Tanner²⁰20. Tanner JM. Growth at adolescence: with a general consideration of the effects of hereditary and environmental factors upon growth and maturation from birth to maturity. 2nd ed. Oxford: Blackwell Scientific Publications; 1962., validated and reproduced for the Brazilian population²¹21. Matsudo SMM, Matsudo VKR. Self-assessment and physician assessment of sexual maturation in Brazilian boys and girls: concordance and reproducibility. Am J Hum Biol. 1994;6(4):451-5.. Sexual maturation stages were indicated by self-evaluation (figures) of breast development (females) and genital development (males). Students were individually oriented by same-sex evaluators. There was a low frequency of adolescents in the pre-pubertal stage (2%), therefore they were excluded from the analysis. Thus, from this variable, adolescents were classified as “pubertal” and “post-pubertal”.

Anthropometric measurements (body mass, height, and triceps and subscapular skinfolds) were collected according to standardizations proposed by Marfell-Jones²²22. Marfell-Jones MJ, Stewart AD, Ridder JH. International standards for anthropometric assessment. Wellingtom, New Zealand: International Society for the Advancement of Kinanthropometry; 2012.. Anthropometric measures were taken by single evaluator with level-1 international certification from the International Society for the Advancement of Kinanthropometry. Height was collected using Sanny® stadiometer with tripod (São Paulo, Brazil) and G-Tech® digital scale for body mass (Zhongshan, China). BMI was also calculated. Triceps and subscapular Skinfolds (SF) were collected with Cescorf ® adipometer (Porto Alegre, Brazil). The sum of SF (triceps and subscapular) was used as study variable. For analyses, these variables were used continuously.

Socio-demographic variables and factors related to sedentary behavior and physical activity were collected through a self-administered questionnaire. Sociodemographic variables included in the study were sex (male and female) and age (full years). Sedentary behavior was analyzed through the identification of the period spent in front of a screen using a questionnaire with six different questions, which verified the amount of hours spent in front of a television (TV), computer (PC) and videogame (VG) during the week and also on weekends. Screen time was calculated by summing the hours spent in front of a screen on weekdays (multiplying the hours and minutes by five) and weekends (multiplying hours and minutes by two), resulting in total screen time²³23. Committee on Children with Disabilities AA of P. American academy of pediatrics: Children, Adolescents, and Television. Pediatrics. 2001;107:423-6..

The global physical activity variable was evaluated by the Brazilian version of the Youth Risk Behavior Surveillance (YRBSS) questionnaire, used in the United States, translated and validated for Brazil²⁴24. Guedes DP, Lopes CC. Validação da versão brasileira do Youth Risk Behavior Survey 2007. Rev Saude Publica. 2010;44(5):840-50.. This questionnaire presented a moderately high kappa concordance index, with a mean of 68.3% and a median of 68.5%. The question used to assess overall physical activity was “During the past seven days, on how many days were you physically active for at least 60 minutes a day? (Consider moderate and / or vigorous physical activity)”. Options varied from one to seven days a week. From the option chosen, the number of days in the week in which the adolescent responded was multiplied by 60 minutes, which allowed calculating the amount of minutes per week that the adolescent performed physical activity²⁵25. Who WHO. Global recommendations on physical activity for health. Geneva World Heal Organ. 2010;60..

Statistical analysis

For data analysis, normality was initially tested by means of graphs, kurtosis and skewness values, with data showing normal distribution. Descriptive statistics was used with mean values and standard error. To compare the sample according to sex, the t-test was used for independent samples. In addition, the effect size was calculated according to literature, in which values below 0.2, 0.5 and 0.8 are respectively classified as low, medium and high²⁶26. Cohen J. Copyright. Revised ed. Statistical power analysis for the behavioral sciences. New York: Academic Press; 1977.. The Pearson correlation coefficient was calculated to determine the relationship among study variables.

The interaction between independent variables (age, body mass, height, BMI, triceps and subscapular SF and sum of triceps and subscapular SF, screen time and total physical activity) was tested. As there was no interaction among variables, the analysis of covariance (ANCOVA) was used. Comparison models between groups (pubertal and post-pubertal) were constructed: Model 1, considered a crude model, verified the difference between groups without covariates; Model 2 had age as a covariate; Model 3 had age, body mass and stature as covariates; Model 4 included age, body mass, stature, BMI, triceps and subscapular SF and sum of SF (triceps and subscapular); Model 5 included all variables of the previous model plus total physical activity and screen time.

In all analyses, a significance level of 5% (p <0.05) was adopted. The Stata® software (Statistical Software for Professionals, Texas), version 13.0 was used for data analysis. The Statistical Package for the Social Sciences (SPSS) version 22.0 was used to calculate the effect size.

Results

Of the 1,132 students investigated, 199 did not have information about the variables used in the present study or had not reached the stage of pubertal maturation, resulting in 933 adolescents included in analyses. Boys presented higher values than girls for variables age, body mass, height, period in sedentary behavior based on screen time, minutes of physical activity per week and performance in the lumbar force test (p <0.01). Girls presented higher values for triceps SF, subscapular SF and sum of SF compared to boys (Table 1).

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Table 1
Descriptive statistics of the sample according to sex.

Post-pubertal girls presented higher values for body mass, BMI, triceps SF, subscapular SF, and sum of SF as compared to pubertal ones (p <0.01). In girls, there was no difference when comparing the other variables in relation to stages of sexual maturation. In boys, no differences were found between variables and stages of sexual maturation (Table 2). Table 3 presents the correlation values of variables investigated for boys and girls.

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Table 2
Distribution of variables investigated by sex according to stages of maturational development of adolescents.

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Table 3
Pearson correlation coefficient among variables investigated according to the sex of adolescents.

For boys, both in the crude model (model 1) and in models with the covariates of age, body mass and height (Models 2 and 3), there were no differences in the performance of the lumbar force test in relation to the maturational stage. However, when considering the effect of BMI, triceps SF, subscapular SF, sum of SF (Model 4), screen time and physical activity (Model 5), post-pubertal boys presented better performance in the lumbar force test compared to pubertal ones (p <0.05). The final model with all covariates had an explanatory power of 7% of lumbar force variation in relation to sexual maturation in boys (Table 4).

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Table 4
Comparison of lumbar force between pubertal and post-pubertal adolescents.

Pubertal girls presented better results in comparison to post-pubertal ones (Model 1). When the model was adjusted for age (Model 2), body mass and stature (Model 3), BMI, triceps SF, subscapular SF and sum of SF (Model 4), screen time and physical activity (Model 5), this difference was maintained (p <0.05). The final model, with all variables, explained approximately 9% of lumbar force variation in relation to sexual maturation in girls (Table 4).

Discussion

The results of the present study identified that post-pubertal boys presented better performance in the lumbar force test compared to pubertal boys. Such a difference was only possible when the effects of body fat, screen time and physical activity were controlled in the analysis. For girls, those who were in the pubertal maturational stage presented better performance in the lumbar force test compared to post-pubertal girls. This difference was observed both in controlling and in not controlling the analyses for possible interference variables in the lumbar force test.

For boys, the findings of the present study are in agreement with a survey carried out in England, with the participation of 313 adolescents aged 11-16 years, in which higher strength levels in the upper limbs was observed for post-pubertal boys in comparison to pubertal boys, even when interference of body mass and height was controlled¹⁷17. Jones MA, Hitchen PJ, Stratton G. The importance of considering biological maturity when assessing physical fitness measures in girls and boys aged 10 to 16 years. Ann Hum Biol. 2000;27(1):57-65.. Similar results were found in a study carried out with adolescents from public schools in southern Brazil, in which boys who belonged to the more advanced stages of sexual maturation had better performance in strength tests of upper limbs and abdomen compared to those in the initial stages of maturation¹⁵15. Minatto G, Petroski EL, Silva DAS. Gordura corporal, aptidão muscular e cardiorrespiratória segundo a maturação sexual em adolescentes brasileiros de uma cidade de colonização germânica. Rev Paul Pediatr. 2013;31(2):189-97..

The higher levels of lumbar force in post-pubertal boys can be explained by natural variations due to growth, maturation and development of muscular structures²2. Plowman SA. Top 10 research questions related to musculoskeletal physical fitness testing in children and adolescents. Res Q Exerc Sport. 2014;85(2):174-87.^,²⁷27. Ré AHN. Crescimento, maturação e desenvolvimento na infância e adolescência: implicações para o esporte. Motricidade. 2011;7(3):55-67.. Peak height growth occurs approximately at the age of 14 years in boys, followed by peak muscle gain²⁷27. Ré AHN. Crescimento, maturação e desenvolvimento na infância e adolescência: implicações para o esporte. Motricidade. 2011;7(3):55-67.^,²⁸28. Bim RH, Nardo-Junior N. Aptidão física relacionada à saúde de adolescentes estagiários da Universidade Estadual de Maringá. Acta Sci Heal Sci. 2005;27(1):77-85.. This occurs because during this period, the production of anabolic hormones testosterone and growth hormone (GH) are higher in post-pubertal boys, which leads to a greater amount of muscle mass and strength¹¹11. Bacil EDA, Mazzardo Júnior O, Rech CR, Legnani RFDS, Campos W De. Atividade física e maturação biológica: uma revisão sistemática. Rev Paul Pediatr. 2015;33(1):114-21.^,¹⁷17. Jones MA, Hitchen PJ, Stratton G. The importance of considering biological maturity when assessing physical fitness measures in girls and boys aged 10 to 16 years. Ann Hum Biol. 2000;27(1):57-65.^,²⁷27. Ré AHN. Crescimento, maturação e desenvolvimento na infância e adolescência: implicações para o esporte. Motricidade. 2011;7(3):55-67..

The difference in lumbar force performance between pubertal and post-pubertal boys was only identified after controlling BMI, SF, screen time and physical activity interference. The literature reports that excess weight and body fat are directly associated with lower strength levels⁸8. Silva DAS, Gonçalves ECDA, Grigollo LR, Petroski EL. Fatores associados aos baixos níveis de força lombar em adolescentes do Sul do Brasil. Rev Paul Pediatr. 2014;32(4):360-6.^,²⁹29. Malina RM. Top 10 Research Questions related to growth and maturation of relevance to physical activity, performance, and fitness. Res Q Exerc Sport. 2014;85(2):157-73.. In addition, during adolescence, boys are more likely to engage in regular physical activity, and stimuli at muscle level resulting from the practice of physical activity lead to increased muscle strength levels, regardless of the natural changes that occur in body composition during adolescence¹¹11. Bacil EDA, Mazzardo Júnior O, Rech CR, Legnani RFDS, Campos W De. Atividade física e maturação biológica: uma revisão sistemática. Rev Paul Pediatr. 2015;33(1):114-21.^,¹²12. Bacil EDA, Piola TS, Watanabe PI, Da Silva MP, Legnani RFS, De Campos W. Maturação biológica e comportamento sedentário em crianças e adolescentes: uma revisão sistemática. J Phys Educ. 2016;27(1):2730.^,²⁹29. Malina RM. Top 10 Research Questions related to growth and maturation of relevance to physical activity, performance, and fitness. Res Q Exerc Sport. 2014;85(2):157-73.^,³⁰30. Malina RM, Claessens AL, Van Aken K, Thomis M, Lefevre J, Philippaerts R, et al. Maturity offset in gymnasts: application of a prediction equation. Med Sci Sport Exerc. 2006;38(7):1342-7..

Girls in the pubertal maturational stage presented higher values in the lumbar force test compared to girls in the post-pubertal maturational stage, regardless of whether or not analyses were controlled by age, body mass, height, BMI, body fat, screen time and physical activity. Unlike boys, muscle strength in girls tends to decrease as maturational stages progress²⁷27. Ré AHN. Crescimento, maturação e desenvolvimento na infância e adolescência: implicações para o esporte. Motricidade. 2011;7(3):55-67.. After peak height growth, approximately at the age of 12 years, menarche occurs, which is characterized by increased production of female hormones (estradiol) and decreased production of testosterone and GH⁹9. Rogol AD, Clark PA, Roemmich JN. Growth and pubertal development in children and adolescents: effects of diet and physical activity. Am J Clin Nutr. 2000.72(Suppl):521-8.^,²⁷27. Ré AHN. Crescimento, maturação e desenvolvimento na infância e adolescência: implicações para o esporte. Motricidade. 2011;7(3):55-67.. Deficiency in GH secretion inhibits the rhythm of pubertal development, causing an increase in the amount of body fat in girls¹³13. Taeymans J, Clarys P, Abidi H, Hebbelinck M, Duquet W. Developmental changes and predictability of static strength in individuals of different maturity: A 30-year longitudinal study. J Sports Sci. 2009;27(8):833-41.^,²⁷27. Ré AHN. Crescimento, maturação e desenvolvimento na infância e adolescência: implicações para o esporte. Motricidade. 2011;7(3):55-67.. Thus, excess adiposity associated with muscle mass reduction results in decreased strength levels as maturational development occurs⁹9. Rogol AD, Clark PA, Roemmich JN. Growth and pubertal development in children and adolescents: effects of diet and physical activity. Am J Clin Nutr. 2000.72(Suppl):521-8.^,²⁷27. Ré AHN. Crescimento, maturação e desenvolvimento na infância e adolescência: implicações para o esporte. Motricidade. 2011;7(3):55-67.^,²⁸28. Bim RH, Nardo-Junior N. Aptidão física relacionada à saúde de adolescentes estagiários da Universidade Estadual de Maringá. Acta Sci Heal Sci. 2005;27(1):77-85..

In girls, the possible interference variables analyzed in the present study did not influence strength levels of pubertal and post-pubertal girls. A possible justification for this fact would be related to decreased somatic growth and increased production of the estrogen hormone concomitant with the increased age of girls²⁷27. Ré AHN. Crescimento, maturação e desenvolvimento na infância e adolescência: implicações para o esporte. Motricidade. 2011;7(3):55-67., both of which increase body fat and decrease muscle strength levels¹³13. Taeymans J, Clarys P, Abidi H, Hebbelinck M, Duquet W. Developmental changes and predictability of static strength in individuals of different maturity: A 30-year longitudinal study. J Sports Sci. 2009;27(8):833-41.^,²⁹29. Malina RM. Top 10 Research Questions related to growth and maturation of relevance to physical activity, performance, and fitness. Res Q Exerc Sport. 2014;85(2):157-73.. In addition, sedentary behavior and physical inactivity are more prevalent in older girls than in boys, and such behaviors are directly associated with lower strength levels¹¹11. Bacil EDA, Mazzardo Júnior O, Rech CR, Legnani RFDS, Campos W De. Atividade física e maturação biológica: uma revisão sistemática. Rev Paul Pediatr. 2015;33(1):114-21.^,¹²12. Bacil EDA, Piola TS, Watanabe PI, Da Silva MP, Legnani RFS, De Campos W. Maturação biológica e comportamento sedentário em crianças e adolescentes: uma revisão sistemática. J Phys Educ. 2016;27(1):2730.. Thus, regardless of variables analyzed, pubertal girls tend to perform better in lumbar force tests compared to post-pubertal girls.

The limitations of this study refer to the cross-sectional design that does not allow establishing causal relationships between performance in the lumbar force test and maturational stages (pubertal and post-pubertal). Another study limitation was the fact that sexual maturation was self-reported. The literature recommends that the most accurate way to evaluate this variable is through direct observation or magnetic resonance imaging¹⁹19. Silva DAS, Tremblay M, Pelegrini A, dos Santos Silva RJ, Cabral de Oliveira AC, Petroski EL. Association between aerobic fitness and high blood pressure in adolescents in brazil: evidence for criterion-referenced cut-points. Pediatr Exerc Sci. 2016;28(2):312-20..

The representativeness of the sample, composed of school adolescents from a city in southern Brazil, is a strong point of the present study. In addition, the results of this research provide information regarding the interference of aspects related to physical growth, body fat and lifestyle behaviors in the lumbar force of adolescents according to maturational development.

Conclusion

Post-pubertal boys presented better performance in the lumbar force test compared to pubertal boys when interference of body fat, screen time and physical activity was controlled. Pubertal girls presented better lumbar force when compared to post-pubertal girls, controlling or not the interference of physical growth, body fat, screen time and physical activity.

The results identified in the present study provide support for the proposal of public policies focused on adolescent health. Strategies aimed at maintaining adequate weight status, reduced screen time, and increased physical activity levels of these adolescents are necessary, particularly for boys in the early stages of sexual maturation and for girls in more mature stages.

In this context, the Physical Education professional, who is inserted in the area of Health Sciences, plays a fundamental role in the prevention of diseases and injuries in promoting a healthy lifestyle. Additionally, Physical Education at schools, as a major field of activity, is configured as an ideal scenario for the promotion of stimuli aimed at strengthening the skeletal muscles and reducing sedentary behaviors.

Thus, through the results of this study, Physical Education teachers can direct activities of learning, development and motor control, sports practices and development of physical fitness related to health, so that adolescents, when they become adults, present lower risks of diseases due to low levels of strength in the lower back.

Acknowledgements

Apoio financeiro: Conselho Nacional de Desenvolvimento Científico e Tecnológico - CNPQ.

References

¹
Caspersen CJ, Powell KE, Christenson GM. Physical activity, exercise, and physical fitness: definitions and distinctions for health-related research. Public Health Rep. 1985;100(2):126-31.
²
Plowman SA. Top 10 research questions related to musculoskeletal physical fitness testing in children and adolescents. Res Q Exerc Sport. 2014;85(2):174-87.
³
Gledhill N, Jamnik V. The canadian physical activity, fitness and lifestyle approach (CPAFLA). Canadian Society for Exercise Physiology, Ottawa, Canada, 2003.
⁴
Hasler CC. Back pain during growth. Swiss Med Wkly. 2013;143(January):1-22.
⁵
Dorneles RCG, Oliveira HL da R, Bergmann ML de A, Bergmann GG. Flexibility and muscle strength/resistance indicators and screening of low back pain in adolescents. Rev Bras Cineantropom Hum. 2016;18(1):93-102.
⁶
Graup S, de Araújo Bergmann ML, Bergmann GG. Prevalence of nonspecific lumbar pain and associated factors among adolescents in Uruguaiana, state of Rio Grande do Sul. Rev Bras Ortop. 2014;49(6):661-7.
⁷
Lemos AT de, Santos FR dos, Moreira RB, Machado DT, Braga FCC, Gaya ACA. Ocorrência de dor lombar e fatores associados em crianças e adolescentes de uma escola privada do sul do Brasil. Cad Saude Publica. 2013;29(11):2177-85.
⁸
Silva DAS, Gonçalves ECDA, Grigollo LR, Petroski EL. Fatores associados aos baixos níveis de força lombar em adolescentes do Sul do Brasil. Rev Paul Pediatr. 2014;32(4):360-6.
⁹
Rogol AD, Clark PA, Roemmich JN. Growth and pubertal development in children and adolescents: effects of diet and physical activity. Am J Clin Nutr. 2000.72(Suppl):521-8.
¹⁰
Malina R, Bouchard C, Bar-Or O. Crescimento, maturação e atividade física. 2a edição. São Paulo: Phorte; 2009. 1-784.
¹¹
Bacil EDA, Mazzardo Júnior O, Rech CR, Legnani RFDS, Campos W De. Atividade física e maturação biológica: uma revisão sistemática. Rev Paul Pediatr. 2015;33(1):114-21.
¹²
Bacil EDA, Piola TS, Watanabe PI, Da Silva MP, Legnani RFS, De Campos W. Maturação biológica e comportamento sedentário em crianças e adolescentes: uma revisão sistemática. J Phys Educ. 2016;27(1):2730.
¹³
Taeymans J, Clarys P, Abidi H, Hebbelinck M, Duquet W. Developmental changes and predictability of static strength in individuals of different maturity: A 30-year longitudinal study. J Sports Sci. 2009;27(8):833-41.
¹⁴
Alvarez-bueno C, García-hermoso A. Association between physical activity, sedentary behavior, and fitness with health related quality of life in healthy children and adolescents: A protocol for a systematic review and meta-analysis. Medicine (Baltimore). 2017;96(12):1-5.
¹⁵
Minatto G, Petroski EL, Silva DAS. Gordura corporal, aptidão muscular e cardiorrespiratória segundo a maturação sexual em adolescentes brasileiros de uma cidade de colonização germânica. Rev Paul Pediatr. 2013;31(2):189-97.
¹⁶
Silva DAS, Martins PC. Impact of physical growth, body adiposity and lifestyle on muscular strength and cardiorespiratory fitness of adolescents. J Bodyw Mov Ther. 2017;6-11.
¹⁷
Jones MA, Hitchen PJ, Stratton G. The importance of considering biological maturity when assessing physical fitness measures in girls and boys aged 10 to 16 years. Ann Hum Biol. 2000;27(1):57-65.
¹⁸
Adaptada Idep. Atlas Brasil. Atlas do desenvolvimento humano no brasil. PNUD. Ipea, FJP, Brasília. Available from: http://atlasbrasil.org.br/2013/pt/perfil_m/sao-jose_sc [Accessed 8 April 2017].
» http://atlasbrasil.org.br/2013/pt/perfil_m/sao-jose_sc
¹⁹
Silva DAS, Tremblay M, Pelegrini A, dos Santos Silva RJ, Cabral de Oliveira AC, Petroski EL. Association between aerobic fitness and high blood pressure in adolescents in brazil: evidence for criterion-referenced cut-points. Pediatr Exerc Sci. 2016;28(2):312-20.
²⁰
Tanner JM. Growth at adolescence: with a general consideration of the effects of hereditary and environmental factors upon growth and maturation from birth to maturity. 2nd ed. Oxford: Blackwell Scientific Publications; 1962.
²¹
Matsudo SMM, Matsudo VKR. Self-assessment and physician assessment of sexual maturation in Brazilian boys and girls: concordance and reproducibility. Am J Hum Biol. 1994;6(4):451-5.
²²
Marfell-Jones MJ, Stewart AD, Ridder JH. International standards for anthropometric assessment. Wellingtom, New Zealand: International Society for the Advancement of Kinanthropometry; 2012.
²³
Committee on Children with Disabilities AA of P. American academy of pediatrics: Children, Adolescents, and Television. Pediatrics. 2001;107:423-6.
²⁴
Guedes DP, Lopes CC. Validação da versão brasileira do Youth Risk Behavior Survey 2007. Rev Saude Publica. 2010;44(5):840-50.
²⁵
Who WHO. Global recommendations on physical activity for health. Geneva World Heal Organ. 2010;60.
²⁶
Cohen J. Copyright. Revised ed. Statistical power analysis for the behavioral sciences. New York: Academic Press; 1977.
²⁷
Ré AHN. Crescimento, maturação e desenvolvimento na infância e adolescência: implicações para o esporte. Motricidade. 2011;7(3):55-67.
²⁸
Bim RH, Nardo-Junior N. Aptidão física relacionada à saúde de adolescentes estagiários da Universidade Estadual de Maringá. Acta Sci Heal Sci. 2005;27(1):77-85.
²⁹
Malina RM. Top 10 Research Questions related to growth and maturation of relevance to physical activity, performance, and fitness. Res Q Exerc Sport. 2014;85(2):157-73.
³⁰
Malina RM, Claessens AL, Van Aken K, Thomis M, Lefevre J, Philippaerts R, et al. Maturity offset in gymnasts: application of a prediction equation. Med Sci Sport Exerc. 2006;38(7):1342-7.

Publication Dates

Publication in this collection
2017

History

Received
10 July 2017
Accepted
31 Aug 2017

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

[1] ¹
Caspersen CJ, Powell KE, Christenson GM. Physical activity, exercise, and physical fitness: definitions and distinctions for health-related research. Public Health Rep. 1985;100(2):126-31.

[2] ²
Plowman SA. Top 10 research questions related to musculoskeletal physical fitness testing in children and adolescents. Res Q Exerc Sport. 2014;85(2):174-87.

[3] ³
Gledhill N, Jamnik V. The canadian physical activity, fitness and lifestyle approach (CPAFLA). Canadian Society for Exercise Physiology, Ottawa, Canada, 2003.

[4] ⁴
Hasler CC. Back pain during growth. Swiss Med Wkly. 2013;143(January):1-22.

[5] ⁵
Dorneles RCG, Oliveira HL da R, Bergmann ML de A, Bergmann GG. Flexibility and muscle strength/resistance indicators and screening of low back pain in adolescents. Rev Bras Cineantropom Hum. 2016;18(1):93-102.

[6] ⁶
Graup S, de Araújo Bergmann ML, Bergmann GG. Prevalence of nonspecific lumbar pain and associated factors among adolescents in Uruguaiana, state of Rio Grande do Sul. Rev Bras Ortop. 2014;49(6):661-7.

[7] ⁷
Lemos AT de, Santos FR dos, Moreira RB, Machado DT, Braga FCC, Gaya ACA. Ocorrência de dor lombar e fatores associados em crianças e adolescentes de uma escola privada do sul do Brasil. Cad Saude Publica. 2013;29(11):2177-85.

[8] ⁸
Silva DAS, Gonçalves ECDA, Grigollo LR, Petroski EL. Fatores associados aos baixos níveis de força lombar em adolescentes do Sul do Brasil. Rev Paul Pediatr. 2014;32(4):360-6.

[9] ⁹
Rogol AD, Clark PA, Roemmich JN. Growth and pubertal development in children and adolescents: effects of diet and physical activity. Am J Clin Nutr. 2000.72(Suppl):521-8.

[10] ¹⁰
Malina R, Bouchard C, Bar-Or O. Crescimento, maturação e atividade física. 2a edição. São Paulo: Phorte; 2009. 1-784.

[11] ¹¹
Bacil EDA, Mazzardo Júnior O, Rech CR, Legnani RFDS, Campos W De. Atividade física e maturação biológica: uma revisão sistemática. Rev Paul Pediatr. 2015;33(1):114-21.

[12] ¹²
Bacil EDA, Piola TS, Watanabe PI, Da Silva MP, Legnani RFS, De Campos W. Maturação biológica e comportamento sedentário em crianças e adolescentes: uma revisão sistemática. J Phys Educ. 2016;27(1):2730.

[13] ¹³
Taeymans J, Clarys P, Abidi H, Hebbelinck M, Duquet W. Developmental changes and predictability of static strength in individuals of different maturity: A 30-year longitudinal study. J Sports Sci. 2009;27(8):833-41.

[14] ¹⁴
Alvarez-bueno C, García-hermoso A. Association between physical activity, sedentary behavior, and fitness with health related quality of life in healthy children and adolescents: A protocol for a systematic review and meta-analysis. Medicine (Baltimore). 2017;96(12):1-5.

[15] ¹⁵
Minatto G, Petroski EL, Silva DAS. Gordura corporal, aptidão muscular e cardiorrespiratória segundo a maturação sexual em adolescentes brasileiros de uma cidade de colonização germânica. Rev Paul Pediatr. 2013;31(2):189-97.

[16] ¹⁶
Silva DAS, Martins PC. Impact of physical growth, body adiposity and lifestyle on muscular strength and cardiorespiratory fitness of adolescents. J Bodyw Mov Ther. 2017;6-11.

[17] ¹⁷
Jones MA, Hitchen PJ, Stratton G. The importance of considering biological maturity when assessing physical fitness measures in girls and boys aged 10 to 16 years. Ann Hum Biol. 2000;27(1):57-65.

[18] ¹⁸
Adaptada Idep. Atlas Brasil. Atlas do desenvolvimento humano no brasil. PNUD. Ipea, FJP, Brasília. Available from: http://atlasbrasil.org.br/2013/pt/perfil_m/sao-jose_sc [Accessed 8 April 2017].
» http://atlasbrasil.org.br/2013/pt/perfil_m/sao-jose_sc

[19] ¹⁹
Silva DAS, Tremblay M, Pelegrini A, dos Santos Silva RJ, Cabral de Oliveira AC, Petroski EL. Association between aerobic fitness and high blood pressure in adolescents in brazil: evidence for criterion-referenced cut-points. Pediatr Exerc Sci. 2016;28(2):312-20.

[20] ²⁰
Tanner JM. Growth at adolescence: with a general consideration of the effects of hereditary and environmental factors upon growth and maturation from birth to maturity. 2nd ed. Oxford: Blackwell Scientific Publications; 1962.

[21] ²¹
Matsudo SMM, Matsudo VKR. Self-assessment and physician assessment of sexual maturation in Brazilian boys and girls: concordance and reproducibility. Am J Hum Biol. 1994;6(4):451-5.

[22] ²²
Marfell-Jones MJ, Stewart AD, Ridder JH. International standards for anthropometric assessment. Wellingtom, New Zealand: International Society for the Advancement of Kinanthropometry; 2012.

[23] ²³
Committee on Children with Disabilities AA of P. American academy of pediatrics: Children, Adolescents, and Television. Pediatrics. 2001;107:423-6.

[24] ²⁴
Guedes DP, Lopes CC. Validação da versão brasileira do Youth Risk Behavior Survey 2007. Rev Saude Publica. 2010;44(5):840-50.

[25] ²⁵
Who WHO. Global recommendations on physical activity for health. Geneva World Heal Organ. 2010;60.

[26] ²⁶
Cohen J. Copyright. Revised ed. Statistical power analysis for the behavioral sciences. New York: Academic Press; 1977.

[27] ²⁷
Ré AHN. Crescimento, maturação e desenvolvimento na infância e adolescência: implicações para o esporte. Motricidade. 2011;7(3):55-67.

[28] ²⁸
Bim RH, Nardo-Junior N. Aptidão física relacionada à saúde de adolescentes estagiários da Universidade Estadual de Maringá. Acta Sci Heal Sci. 2005;27(1):77-85.

[29] ²⁹
Malina RM. Top 10 Research Questions related to growth and maturation of relevance to physical activity, performance, and fitness. Res Q Exerc Sport. 2014;85(2):157-73.

[30] ³⁰
Malina RM, Claessens AL, Van Aken K, Thomis M, Lefevre J, Philippaerts R, et al. Maturity offset in gymnasts: application of a prediction equation. Med Sci Sport Exerc. 2006;38(7):1342-7.

Variables	Total	Male	Female
Variables	M (SE)	M (SE)	M (SE)	p	Cohen’D
Age (years)	16.1(0.3)	16.2 (0.5)	16.0 (0.4)	<0.01*	0.17
Total body weight (kg)	61.9 (0.4)	65.7 (0.5)	58.5 (0.5)	<0.01*	0.59
Height (cm)	166.4 (0.3)	172.7 (0.3)	161.3 (0.3)	<0.01*	1.70
BMI (kg/m²)	22.2 (0.1)	21.9 (0.1)	22.4 (0.2)	0.31	0.14
Triceps SF (mm)	14.9 (0.2)	10.7 (0.2)	18.7 (0.3)	<0.01*	1.30
Subscapular SF (mm)	13.3 (0.2)	10.7 (0.2)	15.5 (0.3)	<0.01*	0.77
∑ triceps and subscapular SF (mm)	28.2 (0.4)	21.5 (0.5)	34.2 (0.6)	<0.01*	1.08
Screen time (h/day)	6.5 (0.1)	7.1 (0.2)	5.95 (0.2)	<0.01*	0.24
Physical activity (min/week)	155.7 (3.9)	177.5 (6.0)	137.4 (5.0)	<0.01*	0.31
Lumbar strength (sec)	124.6 (1.7)	133.0 (2.3)	117.2 (2.4)	<0.01*	0.31

Variables	Male				Female
	Pubertal (n=308)	Post-Pubertal (n=133)	p	Cohen’D	Pubertal (n=305)	Post-Pubertal (n=187)	p	Cohen’D
	M (EP)	M (EP)	p	Cohen’D	M (EP)	M (EP)	p	Cohen’D
Age (years)	16.3 (0.6)	16.2 (0.1)	0.35	0.10	16.0 (0.1)	16.2 (0.1)	0.15	0.13
Total body weight (kg)	65.7 (0.8)	66.9 (1.0)	0.36	0.11	57.0 (0.6)	63.5 (1.0)	<0.01*	0.56
Height (cm)	172.7 (0.4)	174.0 (0.6)	0.09	0.18	161.4 (0.4)	161.1 (0.5)	0.64	0.05
BMI (kg/m²)	22.0 (0.2)	22.0 (0.3)	0.37	0.02	21.8 (0.2)	24.4 (0.4)	<0.01*	0.65
Triceps SF (mm)	10.8 (0.3)	10.5 (0.4)	0.56	0.06	18.0 (0.4)	21.1 (0.6)	<0.01*	0.44
Subscapular SF (mm)	10.7 (0.3)	10.5 (0.5)	0.60	0.05	14.3 (0.4)	18.4 (0.7)	<0.01*	0.56
∑ triceps and subscapular SF (mm)	21.5 (0.6)	20.9 (0.8)	0.56	0.06	32.2 (0.8)	39.5 (1.2)	<0.01*	0.55
Screen time (h/day)	7.0 (0.3)	7.1 (0.5)	0.49	0.22	5.8 (0.3)	6.0 (0.3)	0.57	0.04
Physical activity (min/week)	169.6 (7.5)	194.1 (13.2)	0.16	0.18	140.7 (7.0)	139.7 (9.5)	0.73	0.01

Pearson correlation coefficient (p value)
	Age	Total Body Weight	Height	BMI	Triceps SF	Subscapular SF	∑ triceps and subscapular SF	Screen time	Physical activity
Boys
Total body weight	0.13*	-	-
Height	0.14*	0.52*	-	-
BMI	0.09	0.89*	0.09*	-
Triceps SF	-0.03	0.64*	0.05	0.73*	-
Subscapular SF	0.12*	0.73*	0.10*	0.79*	0.82*	-
∑ triceps and subscapular SF	0.04	0.71*	0.08	0.79*	0.96*	0.95*	-
Screen time	-0.06	-0.05	-0.06	-0.02	0.06	0.06	0.06	-
Physical activity	-0.05	0.06	0.13*	0.01	-0.14*	-0.12*	-0.14*	-0.21*	-
Lumbar strength	0.10	-0.11*	0.03	-0.14*	-0.20*	-0.22*	-0.22*	-0.11*	0.06
Girls
Total body weight	0.11*	-	-
Height	0.09*	0.43*	-	-
BMI	0.09*	0.92*	0.06	-
Triceps SF	0.03	0.72*	0.10*	0.75*	-
Subscapular SF	0.03	0.71*	0.05	0.77*	0.81*	-
∑ triceps and subscapular SF	0.03	0.75*	0.08	0.90*	0.95*	0.95*	-
Screen time	-0.14*	-0.02	-0.02	-0.01	-0.06	0.02	0.04	-
Physical activity	0.04	0.04	0.01	0.04	0.02	-0.01	0.01	-0.01	-
Lumbar strength	0.01	-0.25*	-0.08	-0.24*	-0.23*	-0.25*	-0.27	-0.02	-0.01

Variables	Lumbar strength (sec)
	Pubertal	Post-Pubertal	p	R²2. Plowman SA. Top 10 research questions related to musculoskeletal physical fitness testing in children and adolescents. Res Q Exerc Sport. 2014;85(2):174-87.
	M (SE)	M (SE)	p
Boys
Model 1	132.6 (3.0)	134.8 (4.6)	0.69	<0.01
Model 2	132.7 (3.0)	135.0 (4.6)	0.11	0.01
Model 3	132.4 (3.0)	134.9 (4.6)	0.09	0.03
Model 4	132.3 (3.0)	135.0 (4.6)	<0.01	0.07
Model 5	132.8 (3.0)	135.2 (4.7)	0.03	0.07
Girls
Model 1	124.5 (3.3)	102.3 (4.2)	<0.01	0.04
Model 2	124.6 (3.3)	102.2 (4.2)	<0.01	0.04
Model 3	124.0 (3.3)	103.1 (4.1)	<0.01	0.08
Model 4	124.0 (3.3)	103.1 (4.2)	<0.01	0.09
Model 5	123.1 (3.5)	103.6 (4.3)	<0.01	0.09