The association between healthy lifestyle behaviors and health-related quality of life among adolescents☆

Muros, José J.; Salvador Pérez, Federico; Zurita Ortega, Félix; Gámez Sánchez, Vanesa M.; Knox, Emily

doi:10.1016/j.jped.2016.10.005

Abstract

Objective:

The aim of this research was to examine the association between body mass index, physical activity, adherence to the Mediterranean diet, and health-related quality of life in a sample of Spanish adolescents.

Method:

The study involved 456 adolescents aged between 11 and 14 years. They completed questionnaires on the Mediterranean diet (KIDMED), physical activity (Physical Activity Questionnaire for Older Children [PAQ-C]), and quality of life (KIDSCREEN-27). Body mass index was calculated. Hierarchical linear regression analyses were used to determine whether health-related quality of life could be predicted by the measured variables. The variables were analyzed in a stepwise manner, with Mediterranean diet entered in the first step, body mass index in the second, and physical activity in the third.

Results:

Mediterranean diet accounted for 4.6% of the variance in adolescent's health-related quality of life, with higher adherence to the Mediterranean diet predicting higher health-related quality of life-scores. Body mass index accounted for a further 4.1% of the variance, with a higher body mass index predicting lower health-related quality of life scores. Finally, physical activity explained an additional 11.3% of the variance, with a higher level of physical activity being associated with higher health-related quality of life scores. Together, these variables explained 20% of the variance in the adolescents' health-related quality of life.

Conclusions:

Physical activity, body mass index, and adherence to the Mediterranean diet are important components to consider when targeting improvements in the health-related quality of life of adolescents, with physical activity representing the component with the greatest influence.

KEYWORDS
Quality of life; Physical activity; Mediterranean diet; Body mass index

Resumo

Objetivo:

O objetivo desta pesquisa foi examinar a associação entre o índice de massa corporal, a atividade física, a adesão à dieta mediterrânea e a qualidade de vida relacionada à saúde em uma mostra de adolescentes espanhóis.

Método:

O estudo envolveu 456 adolescentes entre 11 e 14 anos. Eles preencheram questionários sobre a dieta mediterrânea (Kidmed), atividade física (Questionário de Atividade Física para Crianças mais velhas, PAQ-C) e qualidade de vida (Kidscreen-27). Foi calculado o índice de massa corporal. Análises de regressão linear hierárquica foram usadas para determinar se a qualidade de vida relacionada à saúde pode ser prevista pelas variáveis medidas. As variáveis foram introduzidas de forma gradual com a dieta mediterrânea na primeira etapa, índice de massa corporal na segunda etapa e atividade física na terceira.

Resultados:

A dieta mediterrânea representou 4,6% da variância na qualidade de vida relacionada à saúde dos adolescentes e uma maior adesão à dieta mediterrânea foi preditiva de maiores escores de qualidade de vida relacionados à saúde. O índice de massa corporal representou um adicional de 4,1% de variância e um maior índice de massa corporal foi preditivo de menores escores de qualidade de vida relacionada à saúde. Por fim, a atividade física representou um adicional de 11,3% da variância e um maior nível de atividade física foi associado a maiores escores de qualidade de vida relacionada à saúde. Juntas, essas variáveis representam 20% da variância na qualidade de vida relacionada à saúde dos adolescentes.

Conclusões:

A atividade física, o índice de massa corporal e a adesão à dieta mediterrânea são importantes componentes para considerar ao visar melhorias na qualidade de vida relacionada à saúde dos adolescentes, a atividade física é o componente com maior influência.

PALAVRAS-CHAVE
Qualidade de vida; Atividade física; Dieta mediterrânea; Índice de massa corporal

Introduction

During adolescence, cognitive, physical, psychological, and emotional changes take place that can affect health and well-being.¹1 Patton GC, Viner R. Pubertal transitions in health. Lancet. 2007;369:1130-9. Health-related quality of life (HRQoL) is a multi-dimensional construct that describes well-being in physical, psychological, and social terms.²2 Testa MA, Simonson DC. Assessment of quality-of life outcomes. N Engl J Med. 1996;334:835-40.

The World Health Organization estimates that 35 million children in developing countries are overweight or obese.³3 World Health Organization. Population-based prevention strategies for childhood obesity. Geneva: WHO Press; 2010. Compared to healthy weight children and adolescents, those who are obese are more likely to develop several chronic diseases, such as an unhealthy lipid profile, insulin resistance, and metabolic syndrome.⁴4 Catenacci VA, Hill JO, Wyatt HR. The obesity epidemic. Clin Chest Med. 2009;30:415-44. Also, evidence suggests that adolescents with excess weight report poor overall HRQoL relative to healthy weight adolescents.⁵5 Ul-Haq Z, Mackay DF, Fenwick E, Pell JP. Meta-analysis of the association between body mass index and health-related quality of life among children and adolescents, assessed using the pediatric quality of life inventory index. J Pediatr. 2013;162,280-286.e.1.

Levels of physical activity (PA) have been shown to decline during adolescence, making this an important life-stage during which to focus research.⁶6 Dumith SC, Gigante DP, Domingues MR, Kohl HW. Physical activity change during adolescence: a systematic review and a pooled analysis. Int J Epidemiol. 2011;40:685-98. Some of the benefits of PA include reductions in blood cholesterol, hypertension, metabolic syndrome, obesity, and reduced risk of premature death in adolescents. Participation in PA can also be important for ensuring good mental health.⁷7 Janssen I, LeBlanc AG. Systematic review of the health benefits of physical activity and fitness in school-aged children and youth. Int J Behav Nutr Phys Act. 2010;7:40. More intense and frequent PA is associated with lower depression, tension, and fatigue in children and adolescents.⁸8 Cheung SY, Mak JY, Chan J. Children's physical activity participation and psychological well being. Res Q Exerc Sport. 2008;79:A30. Although few studies have investigated the relationship between PA and HRQoL in adolescents, some evidence exists relating high PA with high HRQoL.⁹9 Chen G, Ratcliffe J, Olds T, Magarey A, Jones M, Leslie E. BMI, health behaviors, and quality of life in children and adolescents: a school-based study. Pediatrics. 2014;133:e868-74.

Establishing healthy nutritional behaviors is also important during adolescence, since the healthy nutrition practices established in this period often persist into adulthood.¹⁰10 Lake AA, Mathers JC, Rugg-Gunn AJ, Adamson AJ. Longitudinal change in food habits between adolescence (11-12 years) and adulthood (32-33 years): the ASH30 study. J Public Health. 2006;28:10-6. Following a Mediterranean diet (MD), characterized by high consumption of olive oil, fruits, vegetables, whole grains, moderate to high consumption of fish, moderate consumption of milk and dairy products, and low consumption of meat and meat products has been related with weight loss, reduced abdominal obesity and insulin resistance, and lower risk of diabetes mellitus and cardiovascular diseases. Only a few studies have investigated the association between MD and HRQoL in adults¹¹11 Henríquez Sánchez P, Ruano C, de Irala J, Ruiz-Canela M, Martínez-González MA, Sánchez-Villegas A. Adherence to the Mediterranean diet and quality of life in the SUN Project. Eur J Clin Nutr. 2012;66:360-8. or adolescents,¹²12 Costarelli V, Koretsi E, Georgitsogianni E. Health-related quality of life of Greek adolescents: the role of the Mediterranean diet. Qual Life Res. 2013;22:951-6. finding MD to be positively associated.

To gain a better understanding of HRQoL during adolescence, it is important to explore factors that predict it. The aim of this study was to examine the association between body mass index (BMI), PA, adherence to the MD, and HRQoL in a sample of Spanish adolescents. This study may provide evidence and a theoretical basis on which to develop strategies to improve the HRQoL of Spanish adolescents.

Methods

Subjects

Participants were recruited from their schools to participate in this cross-sectional research. Between 2014 and 2015, there were 20,929 adolescents enrolled in schools across Granada. The study involved 456 adolescents aged between 11 and 14 years, of whom 235 were girls and 221, boys. Data were collected between March and May in 2014. Power analysis suggested that the study required a minimum sample of 378 adolescent to achieve sufficient power with a 95% confidence interval (α: 0.05; β: 0.2). Five of the 55 public schools in the city center of Granada (Spain) were randomly selected to participate in this research. All participating schools were in a medium-high socioeconomic area based on information contained in the Educational Project of the center or school. All adolescents from the five schools aged between 11 and 14 years (n = 511) were invited to take part in this study. Of these, 480 agreed to participate and written informed consent was received from their parent or guardian. Twenty-four adolescents were excluded for failing to complete some element of testing, or because they failed to attend class on their testing day. Both the adolescents and their parents or guardians were informed of the objectives and methods of the study and told that they could withdraw at any time. Participants were instructed on how to complete the questionnaires and how to conduct the tests. All tests were conducted during the participants' physical education lessons during school time. No incentives were provided to adolescents or parents. A research assistant was also on hand to provide guidance on the completion of questionnaires and conduct physical testing. Ethical approval was granted by the Ethics Committee of the University of Granada. The ethical principles of the Declaration of Helsinki for medical research were adhered to.

HRQoL

To assess HRQoL, the KIDSCREEN-27 questionnaire was used. This internationally validated instrument¹³13 Ravens-Sieberer U, Gosch A, Rajmil L, Erhart M, Bruil J, Duer W, et al. KIDSCREEN-52 quality-of-life measure for children and adolescents. Exp Rev Pharmacoecon Outcomes Res. 2005;5:353-64. is applicable for healthy and chronically ill children and adolescents aged from 8 to 18 years. The KIDSREEN-27 consists of 27 items across five components (physical well-being, psychological well-being, autonomy and parent's relation, social support and peers, and school environment). Internal consistency of the subscales was between 0.81 and 0.84, and test-retest reliability ranged from 0.61 to 0.74.¹⁴14 The KIDSCREEN Group Europe. The KIDSCREEN Questionnaires - Quality of life questionnaires for children and adolescents. Handbook. Lengerich: Pabst Science Publishers; 2006. The responses were scored and analyzed according to standard algorithms. The recommended syntax steps were performed, including transforming Rasch person parameter estimates into z-values, yielding scale scores as T-values with mean (± SD) scores of 50 ± 10 define normality for children and adolescents aged 8-18 years across Europe. Higher scores indicate higher HRQoL.

Anthropometric measurement

Height and weight were measured following the protocols established by the International Society for the Advancement of Kinanthropometry¹⁵15 Stewart A, Marfell-Jones M, Olds T, Hans de Ridder J. International standards for anthropometric assessment. New Zealand: ISAK, Lower Hut; 2011. using a stadiometer (GPM, Seritex, Inc., NJ, USA) with ±1 mm accuracy) and an electronic scale model 707 (Seca^®, MD, USA) with ±50 g accuracy; BMI was calculated as weight divided by height squared (kg/m²). Overweight and obesity were defined according to international criteria.¹⁶16 Cole TJ, Bellizzi MC, Flegal KM, Dietz WH. Establishing a standard definition for child overweight and obesity worldwide. Int Surv BMJ. 2000;320:1240-3.

PA, maximal oxygen uptake, and screen time

PA levels were evaluated using the Physical Activity Questionnaire for Older Children (PAQ-C). The questionnaire provides a general measure of PA for 8-20 year-olds. The PAQ-C is a self-administered questionnaire consisting of nine items rated on a five-point scale. The final PAQ-C activity summary score was calculated from the mean of the nine items. Five was therefore the highest possible score and one the lowest, with a score of five indicating high PA and one indicating low PA. Respondents are asked to recall the frequency and type of PA they have engaged in on each of the seven days prior to completing the questionnaire. Validation studies have found the PAQ-C to be highly reliable.¹⁷17 Saint-Maurice P, Welk GJ, Beyler NK, Bartee RT, Heelan KA. Calibration of self-report tools for physical activity research: the Physical Activity Questionnaire (PAQ). BMC Public Health. 2014;14:461. Based on these scores, the sample was classified into PA tertiles (low, medium, and high).

Maximal oxygen uptake (VO₂max) was estimated using a 20 m incremental-maximum effort shuttle run field test. The test involves running to and fro between two lines placed 20 m apart. Participants start at an initial velocity of 8.5 km/h and increase their speed by 0.5 km/h/min until they can no longer reach the line on two consecutive occasions or when the participant can no longer maintain the physical effort required to continue. VO₂max relative to body mass (mL/kg/min) was calculated using the established formula.¹⁸18 Léger LA, Mercier D, Gadoury C, Lambert J. The multistage 20 metre shuttle run test for aerobic fitness. J Sports Sci. 1988;6:93-101.

To determine sedentary screen time, participants were asked to report the number of hours per day they spent watching TV/DVDs, computer screens, smartphones, tablets, or other devices.

Adherence to the MD

Adherence to the MD was assessed using the Evaluation of the Mediterranean Diet Quality Index (KIDMED),¹⁹19 Serra-Majem L, Ribas L, Ngo J, Ortega RM, García A, Pérez-Rodrigo C, et al. Food, youth and the Mediterranean diet in Spain, Development of KIDMED, Mediterranean diet quality index in children and adolescents. Public Health Nutr. 2004;7:931-5. which was created to estimate adherence to the MD in children and young adults. The test is comprised of 16 dichotomous items (yes/no), of which twelve items describe behaviors consistent with the MD, e.g., “do you use olive oil at home?” and four items describe behaviors inconsistent with the MD, e.g., “do you consume sweets and candy several times every day?” Affirmative answers to MD-consistent and inconsistent behaviors were scored +1 and −1, respectively, giving a maximum possible score of 12. According to the KIDMED score, children's diets were classified as optimal (≥8 points), in need of improvement (4-7 points), or low quality (≤3 points).

Statistical analysis

Means and standard deviations are reported for all variables. Normality of the data was tested using the Kolmogorov-Smirnov test with the Lilliefors correction and homoscedasticity was assessed using the Levene test. After verifying that the variables were not normally distributed, the data were analyzed using the Mann-Whitney U-test for two-group comparison and the Kruskal-Wallis test for three-group comparisons. Hierarchical linear regression analyses were used to determine whether HRQoL in children could be predicted by the measured variables. MD was entered in a stepwise manner in the first step, BMI in the second step, and PA in the third step. The SPSS Statistics for Windows (IBM SPSS Statistics for Windows, version 22.0. NY, USA) was used to analyze the data with α set at 0.05.

Results

Descriptive characteristics for the study sample are shown in Table 1. The Mann-Whitney U-test showed that reported scores for PAQ-C and VO₂max were significantly lower in girls than in boys. No significant differences were found for the other variables.

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Table 1
Baseline characteristics of adolescents.

Table 2 shows the descriptive characteristics of the sample according to adherence to the MD, BMI, and PA. Analysis according to adherence to the MD revealed significant differences for PA, VO₂max, and HRQoL, with higher MD adherence showing a positive relationship in all cases. Adolescents with higher adherence to the MD also reported lower screen time. Analysis according to BMI showed significantly higher values of PA, VO₂max, and HRQoL in healthy weight adolescents in comparison with overweight or obese adolescents. In terms of PA, adolescents who engaged in more PA presented significantly higher VO₂max, adherence to the MD, and HRQoL, as well as significantly lower weight, BMI, and screen time.

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Table 2
Characteristic of the adolescents by adherence to the Mediterranean diet, body mass index, and physical activity.

Table 3 presents results from the hierarchical regression. MD accounted for 4.6% of the variance in adolescent's HRQoL. Higher adherence to the MD was associated with higher HRQoL scores. BMI accounted for a further 4.1% of the variance, with a higher BMI predicting lower HRQoL among adolescents. Finally, PA explained an additional 11.3% of the variance in adolescent's HRQoL, with a higher level of PA being associated with higher HRQoL scores. Together, these variables explained 20% of the variance in the adolescents' HRQoL.

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Table 3
Factors associated with health-related quality of life (total score) in children - multiple hierarchical regression analysis (n = 456).

Discussion

To the authors' knowledge, this is the first study to analyze the association between a combination of adherence to MD, BMI, and PA on HRQoL during the first stage of adolescence. The main finding of the present study is that healthy lifestyle behaviors are reasonably good predictors of HRQoL during adolescence (together accounting for 20% of the variance). In addition, the strongest measured predictor of HRQoL was PA, which explained 11.3% of the variance, more than adherence to MD and BMI combined.

Few studies have studied the association between adherence to the MD and HRQoL. Previous studies in adults have found self-perceived mental and physical function to be directly associated with adherence to the MD.¹¹11 Henríquez Sánchez P, Ruano C, de Irala J, Ruiz-Canela M, Martínez-González MA, Sánchez-Villegas A. Adherence to the Mediterranean diet and quality of life in the SUN Project. Eur J Clin Nutr. 2012;66:360-8. During the period of adolescence, only one recent study conducted in Greece has revealed a significant positive association between adherence to the MD and HRQoL (Beta = 0.210).¹²12 Costarelli V, Koretsi E, Georgitsogianni E. Health-related quality of life of Greek adolescents: the role of the Mediterranean diet. Qual Life Res. 2013;22:951-6. Consuming a MD has been inversely associated with various chronic diseases.²⁰20 Domínguez LJ, Bes-Rastrollo M, de la Fuente-Arrillaga C, Toledo E, Beunza JJ, Barbagallo M, et al. Similar prediction of total mortality, diabetes incidence or cardiovascular events using relative- and absolute-component Mediterranean diet score: The SUN cohort. Nutr Metab Cardiovasc Dis. 2013;23:451-8. Furthermore, adolescents who do not typically consume a MD tend to have a lower socioeconomic status.¹⁹19 Serra-Majem L, Ribas L, Ngo J, Ortega RM, García A, Pérez-Rodrigo C, et al. Food, youth and the Mediterranean diet in Spain, Development of KIDMED, Mediterranean diet quality index in children and adolescents. Public Health Nutr. 2004;7:931-5. As a result, they tend to have less access to some of the healthy components of the MD, such as fruits, vegetables, fish, or olive oil. Lower socioeconomic status has been associated with poorer physical and general health.²¹21 Kunst A, Bos V, Lahelma E, Bartley M, Lissau I, Regidor E, et al. Trends in socio-economic inequalities in self-assessed health in 10 European countries. Int J Epidemiol. 2005;34:316-26. Considering that the majority of the present sample lived in medium-high socioeconomic areas, these factors are unlikely have exerted a large influence on the findings. Individuals following a MD are also more likely to engage in other aspects of the Mediterranean lifestyle, such as using lunchtime for social communication with family and friends. This may at least partially explain the relationships between adherence to the MD and social aspects of the HRQoL.

The results regarding BMI and HRQoL are controversial. This study found a higher BMI to be related with lower HRQoL. Previous studies comparing pediatric HRQoL across different BMI weight categories of adolescents have not found significant differences according to weight category.²²22 Gandhi PK, Revicki DA, Huang IC. Adolescent body weight and health-related quality of life rated by adolescents and parents: the issue of measurement bias. BMC Public Health. 2015;15:1192. In contrast, other studies have found that obese adolescents have lower HRQoL than healthy weight adolescents.²³23 Williams J, Wake M, Hesketh K, Maher E, Waters E. Health-related quality of life of overweight and obese children. J Am Med Assoc. 2005;293:70-6. Many overweight adolescents may experience weight-related stigma and social discrimination as a result of carrying excess weight, which could diminish their HRQoL.²⁴24 Puhl RM, Brownell KB. Confronting and coping with weight stigma: an investigation of overweight and obese adults. Obesity. 2006;14:1802-15.

The present study also identified high levels of PA to be related to high HRQoL, in congruence with other published research.²⁵25 Spengler S, Woll A. The more physically active, the healthier? The relationship between physical activity and health-related quality of life in adolescents: the MoMo study. J Phys Act Health. 2013;10:708-15. One previous prospective study showed a bidirectional association between PA and HRQoL in adolescents in which total PA engagement strongly predicted high HRQoL, and positive HRQoL predicted engagement in recommended PA levels.²⁶26 Omorou AY, Langlois J, Lecomte E, Briançon S, Vuillemin A. Cumulative and bidirectional association of physical activity and sedentary behaviour with health-related quality of life in adolescents. Qual Life Res. 2016;25:1169-78. This may be a result of the positive influence of PA on psychological and social functioning, and protection from depression.²⁷27 Hallgren M, Herring MP, Owen N, Dunstan D, Ekblom Ö, Helgadottir B, et al. Exercise, physical activity, and sedentary behavior in the treatment of depression: broadening the scientific perspectives and clinical opportunities. Front Psychiatry. 2016;7:36.

PA had a stronger influence than adherence to the MD and BMI and should be considered as the main focus of intervention targeting HRQoL in adolescents. A recent intervention study involving overweight and obese adolescents investigated correlations between changes in HRQoL and BMI or PA after a 24-month weight-loss program. Results showed that long-term changes in PA explained 30% of the variation in overall HRQoL (p = .01), whereas changes in BMI were not associated with a change in HRQoL. This indicates that PA may have a positive influence on HRQoL even without a substantial change in body composition.²⁸28 Daniels SR. Physical activity and quality of life. J Pediatr. 2014;165:647-9.

One limitation of the present research is its cross-sectional design, which inhibits the investigation of causal relationships. Furthermore, the use of self-report to assess a number of the variables increases the possibility of measurement error. However, as both the PAQ-C and KIDMED have previously demonstrated high validity and reliability in this population, this should have little impact on the conclusions made. Also, it was not possible to evaluate the socioeconomic status (SES) of individuals in the study. All schools were situated in a medium-high socioeconomic area based on information contained in the Educational Project of the center or school. As a result, the schools should at least be comparable; however, future studies should measure SES where possible.

Despite these limitations, to the best of the authors' knowledge, this is the first study to analyze associations between MD adherence, PA, and BMI on HRQoL in adolescents.

This study suggests that PA, BMI, and adherence to the MD are important components to consider when targeting improvements in the HRQoL of adolescents, with PA representing the component with the greatest influence. Policies that promote the MD and recommend PA are expected to improve HRQoL in adolescents. Longitudinal studies are needed to further explore the association between these components with regards to HRQoL.

☆
Please cite this article as: Muros JJ, Pérez FS, Ortega FZ, Sánchez VM, Knox E. The association between healthy lifestyle behaviors and health-related quality of life among adolescents. J Pediatr (Rio J). 2017;93:406-12.

References

¹
Patton GC, Viner R. Pubertal transitions in health. Lancet. 2007;369:1130-9.
²
Testa MA, Simonson DC. Assessment of quality-of life outcomes. N Engl J Med. 1996;334:835-40.
³
World Health Organization. Population-based prevention strategies for childhood obesity. Geneva: WHO Press; 2010.
⁴
Catenacci VA, Hill JO, Wyatt HR. The obesity epidemic. Clin Chest Med. 2009;30:415-44.
⁵
Ul-Haq Z, Mackay DF, Fenwick E, Pell JP. Meta-analysis of the association between body mass index and health-related quality of life among children and adolescents, assessed using the pediatric quality of life inventory index. J Pediatr. 2013;162,280-286.e.1.
⁶
Dumith SC, Gigante DP, Domingues MR, Kohl HW. Physical activity change during adolescence: a systematic review and a pooled analysis. Int J Epidemiol. 2011;40:685-98.
⁷
Janssen I, LeBlanc AG. Systematic review of the health benefits of physical activity and fitness in school-aged children and youth. Int J Behav Nutr Phys Act. 2010;7:40.
⁸
Cheung SY, Mak JY, Chan J. Children's physical activity participation and psychological well being. Res Q Exerc Sport. 2008;79:A30.
⁹
Chen G, Ratcliffe J, Olds T, Magarey A, Jones M, Leslie E. BMI, health behaviors, and quality of life in children and adolescents: a school-based study. Pediatrics. 2014;133:e868-74.
¹⁰
Lake AA, Mathers JC, Rugg-Gunn AJ, Adamson AJ. Longitudinal change in food habits between adolescence (11-12 years) and adulthood (32-33 years): the ASH30 study. J Public Health. 2006;28:10-6.
¹¹
Henríquez Sánchez P, Ruano C, de Irala J, Ruiz-Canela M, Martínez-González MA, Sánchez-Villegas A. Adherence to the Mediterranean diet and quality of life in the SUN Project. Eur J Clin Nutr. 2012;66:360-8.
¹²
Costarelli V, Koretsi E, Georgitsogianni E. Health-related quality of life of Greek adolescents: the role of the Mediterranean diet. Qual Life Res. 2013;22:951-6.
¹³
Ravens-Sieberer U, Gosch A, Rajmil L, Erhart M, Bruil J, Duer W, et al. KIDSCREEN-52 quality-of-life measure for children and adolescents. Exp Rev Pharmacoecon Outcomes Res. 2005;5:353-64.
¹⁴
The KIDSCREEN Group Europe. The KIDSCREEN Questionnaires - Quality of life questionnaires for children and adolescents. Handbook. Lengerich: Pabst Science Publishers; 2006.
¹⁵
Stewart A, Marfell-Jones M, Olds T, Hans de Ridder J. International standards for anthropometric assessment. New Zealand: ISAK, Lower Hut; 2011.
¹⁶
Cole TJ, Bellizzi MC, Flegal KM, Dietz WH. Establishing a standard definition for child overweight and obesity worldwide. Int Surv BMJ. 2000;320:1240-3.
¹⁷
Saint-Maurice P, Welk GJ, Beyler NK, Bartee RT, Heelan KA. Calibration of self-report tools for physical activity research: the Physical Activity Questionnaire (PAQ). BMC Public Health. 2014;14:461.
¹⁸
Léger LA, Mercier D, Gadoury C, Lambert J. The multistage 20 metre shuttle run test for aerobic fitness. J Sports Sci. 1988;6:93-101.
¹⁹
Serra-Majem L, Ribas L, Ngo J, Ortega RM, García A, Pérez-Rodrigo C, et al. Food, youth and the Mediterranean diet in Spain, Development of KIDMED, Mediterranean diet quality index in children and adolescents. Public Health Nutr. 2004;7:931-5.
²⁰
Domínguez LJ, Bes-Rastrollo M, de la Fuente-Arrillaga C, Toledo E, Beunza JJ, Barbagallo M, et al. Similar prediction of total mortality, diabetes incidence or cardiovascular events using relative- and absolute-component Mediterranean diet score: The SUN cohort. Nutr Metab Cardiovasc Dis. 2013;23:451-8.
²¹
Kunst A, Bos V, Lahelma E, Bartley M, Lissau I, Regidor E, et al. Trends in socio-economic inequalities in self-assessed health in 10 European countries. Int J Epidemiol. 2005;34:316-26.
²²
Gandhi PK, Revicki DA, Huang IC. Adolescent body weight and health-related quality of life rated by adolescents and parents: the issue of measurement bias. BMC Public Health. 2015;15:1192.
²³
Williams J, Wake M, Hesketh K, Maher E, Waters E. Health-related quality of life of overweight and obese children. J Am Med Assoc. 2005;293:70-6.
²⁴
Puhl RM, Brownell KB. Confronting and coping with weight stigma: an investigation of overweight and obese adults. Obesity. 2006;14:1802-15.
²⁵
Spengler S, Woll A. The more physically active, the healthier? The relationship between physical activity and health-related quality of life in adolescents: the MoMo study. J Phys Act Health. 2013;10:708-15.
²⁶
Omorou AY, Langlois J, Lecomte E, Briançon S, Vuillemin A. Cumulative and bidirectional association of physical activity and sedentary behaviour with health-related quality of life in adolescents. Qual Life Res. 2016;25:1169-78.
²⁷
Hallgren M, Herring MP, Owen N, Dunstan D, Ekblom Ö, Helgadottir B, et al. Exercise, physical activity, and sedentary behavior in the treatment of depression: broadening the scientific perspectives and clinical opportunities. Front Psychiatry. 2016;7:36.
²⁸
Daniels SR. Physical activity and quality of life. J Pediatr. 2014;165:647-9.

Publication Dates

Publication in this collection
Jul-Aug 2017

History

Received
18 July 2016
Accepted
13 Oct 2016

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivative License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium provided the original work is properly cited and the work is not changed in any way.

[1] ☆
Please cite this article as: Muros JJ, Pérez FS, Ortega FZ, Sánchez VM, Knox E. The association between healthy lifestyle behaviors and health-related quality of life among adolescents. J Pediatr (Rio J). 2017;93:406-12.

	All (n = 456)	Girls (n = 235)	Boys (n = 221)	p-value
Age (years)	12.57 ± 1.17	12.57 ± 1.15	12.58 ± 1.19	0.846
Weight (kg)	47.53 ± 12.54	47.19 ± 11.65	47.87 ± 13.42	0.840
BMI (kg/m²)	19.75 ± 3.85	19.84 ± 3.75	19.63 ± 3.97	0.492
PA (score)	2.92 ± .64	2.76 ± .64	3.09 ± .60	0.000
VO₂max (mL/kg/min)	41.91 ± 10.37	34.54 ± 8.20	48.24 ± 10.68	0.000
Screen time (hours)	1.71 ± 1.01	1.73 ± .96	1.68 ± 1.07	0.287
MD (score)	7.87 ± 2.08	7.89 ± 2.05	7.86 ± 2.12	0.855
HRQoL (score)	52.96 ± 8.21	52.58 ± 8.10	53.46 ± 8.22	0.137

	Adherence to the MD				BMI
	Very low (n = 8)	Need to improve (n = 182)	Optimal (n = 265)	p-value	Healthy (n = 345)	Overweight (n = 76)	Obese (n = 25)	p-value
Age (years)	13.00 ± 1.31	12.62 ± 1.14	12.53 ± 1.18	0.450	12.57 ± 1.17	12.54 ± 1.22	12.72 ± 1.14	0.558
Weight (kg)	57.60 ± 27.74	47.47 ± 12.72	47.32 ± 11.88	0.675	43.32 ± 8.69	57.17 ± 9.67	75.72 ± 12.55	0.000
BMI (kg/m²)	22.34 ± 7.79	19.83 ± 3.92	19.61 ± 3.69	0.783	18.23 ± 2.02	23.47 ± 1.37	29.81 ± 3.57	0.000
PA (score)	2.67 ± .80	2.81 ± .66	3.00 ± .61	0.003	2.96 ± .65	2.82 ± .61	2.61 ± .45	0.008
VO₂max (mL/kg/min)	36.39 ± 8.37	39.34 ± 12.63	42.58 ± 10.90	0.024	43.65 ± 11.51	34.60 ± 9.81	33.15 ± 4.75	0.000
Screen time (hours)	2.63 ± 1.51	1.87 ± 1.06	1.57 ± .93	0.001	1.68 ± 1.02	1.67 ± .96	1.96 ± .98	0.154
MD (score)	1.75 ± 1.58	6.05 ± .99	9.30 ± 1.13	0.000	7.96 ± 2.01	7.91 ± 2.07	7.20 ± 2.48	0.373
HRQoL (scores)	41.55 ± 11.50	51.69 ± 7.87	54.25 ± 7.87	0.000	53.64 ± 7.87	51.97 ± 8.48	47.16 ± 9.31	0.001
		PA (tertiles)
		Low (n = 150)		Mid (n = 154)	High (n = 151)			p -value
Age (years)		12.93 ± 1.14		12.53 ± 1.16	12.26 ± 1.11			0.000
Weight (kg)		50.42 ± 12.90		48.06 ± 13.61	44.07 ± 10.10			0.000
BMI (kg/m²)		20.45 ± 4.22		19.90 ± 4.21	18.87 ± 2.86			0.003
PA (score)		2.21 ± .32		2.92 ± .18	3.63 ± .31			0.000
VO₂max (mL/kg/min)		37.17 ± 8.46		42.18 ± 10.15	46.19 ± 10.52			0.000
Screen time (hours)		1.84 ± .99		1.77 ± 1.03	1.51 ± 1.00			0.002
MD (score)		7.40 ± 2.06		7.93 ± 2.15	8.26 ± 1.95			0.001
HRQoL (scores)		49.70 ± 7.48		52.48 ± 8.21	56.83 ± 7.19			0.000

Predictor variable	Standardized Beta	R	R ²	ΔR ²	F	ΔF
Step 1		0.215	0.046	0.046	21.323^a a p < 0.001.
MD	0.215^a a p < 0.001.

Step 2		0.295	0.087	0.041	20.868^a a p < 0.001.	16.516^a a p < 0.001.
MD	0.202^a a p < 0.001.
BMI	-0.202^a a p < 0.001.

Step 3		0.447	0.200	0.113	36.432^a a p < 0.001.	61.782^a a p < 0.001.
MD	0.142^b b p < 0.01.
BMI	-0.140^b b p < 0.01.
PA	0.348^a a p < 0.001.

Brasil

Brasil

Abstract

Objective:

Method:

Results:

Conclusions:

Resumo

Objetivo:

Método:

Resultados:

Conclusões:

Introduction

Methods

Subjects

HRQoL

Anthropometric measurement

PA, maximal oxygen uptake, and screen time

Adherence to the MD

Statistical analysis

Results

Discussion

References

Publication Dates

History