Elevated Blood Pressure and Obesity in Childhood: A
					Cross-Sectional Evaluation of 4,609 Schoolchildren

Rosaneli, Caroline Filla; Baena, Cristina Pellegrio; Auler, Flavia; Nakashima, Alika Terumi Arasaki; Netto-Oliveira, Edna Regina; Oliveira, Amauri Bássoli; Guarita-Souza, Luiz César; Olandoski, Marcia; Faria-Neto, José Rocha

doi:10.5935/abc.20140104

Abstracts

Background:

The incidence of obesity in children is increasing worldwide, primarily in urbanized, high-income countries, and hypertension development is a detrimental effect of this phenomenon.

Objective:

In this cross-sectional study, we evaluated the prevalence of excess weight and its association with high blood pressure (BP) in schoolchildren.

Methods:

Here 4,609 male and female children, aged 6 to 11 years, from 24 public and private schools in Maringa, Brazil, were evaluated. Nutritional status was assessed by body mass index (BMI) according to cutoff points adjusted for sex and age. Blood pressure (BP) levels above 90th percentile for gender, age and height percentile were considered elevated.

Results:

The prevalence of excess weight among the schoolchildren was 24.5%; 16.9% were overweight, and 7.6% were obese. Sex and socioeconomic characteristics were not associated with elevated BP. In all age groups, systolic and diastolic BP correlated with BMI and waist and hip measurements, but not with waist-hip ratio. The prevalence of elevated BP was 11.2% in eutrophic children, 20.6% in overweight children [odds ratio (OR), 1.99; 95% confidence interval (CI), 1.61-2.45], and 39.7% in obese children (OR, 5.4; 95% CI, 4.23-6.89).

Conclusion:

Obese and overweight children had a higher prevalence of elevated BP than normal-weight children. Our data confirm that the growing worldwide epidemic of excess weight and elevated BP in schoolchildren may also be ongoing in Brazil.

Hypertension; Pediatric Obesity; Child; Prevalence; Epidemiology

Introdução:

A incidência de obesidade em crianças está aumentando em todo o mundo, principalmente em países industrializados de alta renda, e o desenvolvimento de hipertensão é um efeito negativo desse problema.

Objetivo:

O presente estudo transversal objetivou determinar a prevalência de obesidade e sua associação com o aumento da pressão arterial em escolares.

Métodos:

Neste estudo transversal foram avaliadas 4.609 crianças de ambos os sexos, com idade entre 6 e 11 anos, pertencentes a 24 escolas públicas e particulares de Maringá, Brasil. O estado nutricional foi avaliado pelo índice de massa corporal (IMC) de acordo com pontos de corte ajustados para sexo e idade. Valores de pressão arterial (PA) acima do 90º percentil para gênero, idade e percentil da altura foram considerados elevados. Resultados: A prevalência de excesso de peso entre os escolares foi de 24,5%, sendo que 16,9% apresentaram sobrepeso e 7,6% apresentaram obesidade. O gênero e as condições socioeconômicas não apresentaram correlação com o aumento da pressão arterial. Em todas as faixas etárias, a PA sistólica e diastólica tiveram correlação com o IMC, medida da cintura, medida do quadril, mas não com a relação cintura-quadril. A prevalência de PA elevada foi de 11,2% em crianças eutróficas, 20,6% nas com sobrepeso (OR = 1,99, IC 95% = 1,61-2,45) e 39,7% nas obesas (OR = 5,4, IC 95% = 4,23-6,89).

Conclusão:

As crianças obesas e com sobrepeso apresentaram maior prevalência de pressão arterial elevada. Nossos dados confirmam que a crescente prevalência de excesso de peso e pressão arterial elevada em escolares observado mundialmente também pode estar ocorrendo no Brasil.

Hipertensão; Obesidade Pediátrica; Criança; Prevalência; Epidemiologia

Introduction

The incidence of obesity and high blood pressure (BP) has increased considerably in children and adolescents and is strongly associated with the development of further disease in adulthood¹1. Constantine E, Merritt C. Hypertensive emergencies in children: Identification and management of dangerously high blood pressure. Minerva Pediatr. 2009;61(2):175-84.

2. Monego ET, Jardim PC. Determinants of risk of cardiovascular diseases in schoolchildren. Arq Bras Cardiol. 2006;87(1):37-45.

3. Burke V, Beilin LJ, Dunbar D, Kevan M. Associations between blood pressure and overweight defined by new standards for body mass index in childhood. Prev Med. 2004;38(5):558-64.

4. Sharma M. School-based interventions for childhood and adolescent obesity. Obes Rev. 2006;7(3):261-9.

5. Barba G, Troiano E, Russo P, Strazzullo P, Siani A. Body mass, fat distribution and blood pressure in southern italian children: Results of the arca project. Nutr Metab Cardiovasc Dis. 2006;16(4):239-48.

6. Ribeiro JC, Guerra S, Oliveira J, Andersen LB, Duarte JA, Mota J. Body fatness and clustering of cardiovascular disease risk factors in portuguese children and adolescents. Am J Hum Biol. 2004;16(5):556-62. ^- ⁷7. Williams CL, Hayman LL, Daniels SR, Robinson TN, Steinberger J, Paridon S, et al. Cardiovascular health in childhood: a statement for health professionals from the Committee on Atherosclerosis, Hypertension, and Obesity in the Young (AHOY) of the Council on Cardiovascular Disease in the Young, American Heart Association. Circulation. 2002;106(1):143-60. Erratum in Circulation. 2002;106(9):1178. Moreover, because the incidence of obesity is rising in early phases of life, certain diseases, such as hypertension and diabetes, are becoming a public health issue.

In the 1990s, the prevalence of hypertension among children and adolescents was approximately 2 to 3%⁸8. Rosa AA, Ribeiro JP. High blood pressure in children and adolescents: determinant factors. J Pediatr (Rio J). 1999;75(2):75-82.. Currently, the prevalence varies from 1 to 13% depending on the methodology used⁹9. Salgado CM, Carvalhaes JTA. Hipertensão arterial na infância. J Pediatr (Rio J). 2003;79 Suppl 1:S115-24.. Because obesity has become epidemic in developing countries, the incidence of hypertension also may be increasing. Recognition and awareness of this problem are needed to encourage development of future preventive strategies against excess weight and its complications.

Brazil has intrinsic discrepancies and socioeconomic inequalities in common with other developing nations. In Brazil, there have been few studies showing a correlation between BP and obesity in children. Thus, the purpose of the present cross-sectional study was to evaluate the prevalence of excess weight and its association with high BP in schoolchildren.

Methods

This study was designed using the national register of children enrolled in schools in the metropolitan area of Maringa, a city in southern Brazil with a high Human Development Index (0.841) and a high Gini Index (0.56). Maringa has an economy primarily based on agriculture, commerce, and services. At the time this study was planned, Maringa had a population of approximately 356,000 people and 24,723 students between the ages of 6 and 11 years.

In 2006, there were 202 schools in the city of Maringa (public and private schools in the urban area) with an enrollment of 22,302 children aged 6.0 to 11 years. For sample size calculation, considering that the expected prevalence of excess weight was unknown because of the lack of previous studies in the area, the prevalence was set to 50% as this value would produce the largest sample size (confidence limits 2% and confidence level 95%). A clustering sampling was performed considering each school as a sampling unit. Accordingly, the city was divided into 4 different geographical quadrants by taking the municipal cathedral located in the middle of the city as the intersection point of the north-south/east-west dividing line. Fifteen percent of the schools in the city were randomly selected and were selected according to the proportion of schools in each quadrant; the proportion between private and public schools was also considered. In anticipation of possible losses, 30% more children than the calculated sample size were invited to participate in the study (a total of 5,345 children from 24 schools). Data collection occurred between March and December 2006.

This cross-sectional study was approved by the Ethics Committee of the Universidade Estadual de Maringa (n. 016/2006) according to the norms of Resolution 196/96 of the National Health Council regarding research involving human beings.

The students enrolled in the selected schools and grades were notified of the study and instructed to take a term of consent document and questionnaire to their parent or guardian to obtain permission to participate in the study. One week later, the children were asked to hand in the signed authorization and evaluated at the school.

Children younger than 6 or older than 11 years were evaluated to avoid peer resentment, but their data were not entered in the sample. Children who either refused, did not receive authorization from their parent or guardian, whose forms were not filled out completely, or were absent from class on the day scheduled for data collection were excluded from the study.

Data collection

Data collection was performed in the school environment (in private classrooms) at prescheduled hours during a school day by a team of previously trained professionals¹⁰10. Oliveira-Filho A, Oliveira AA, Oliveira ER, Kurata DM, Pineda M. Variabilidade intra-avaliador e interavaliadores de medidas antropométricas. Acta Sci Health Sci. 2007;29(1):1-5.; these professionals were members of the Studies in Obesity and Exercise Research Group of the Universidade Estadual de Maringa (GREPO/UEM).

BP was measured and classified as proposed by the 4th Report on the Diagnosis, Evaluation, and Treatment of High Blood Pressure in Children and Adolescents¹¹11. National High Blood Pressure Education Program Working Group on High Blood Pressure in Children and Adolescents. The fourth report on the diagnosis, evaluation, and treatment of high blood pressure in children and adolescents. Pediatrics. 2004;114(Suppl 2):555-76. and was measured after the child had been lying down for at least 5 min, with the 2 measurements made 10 min apart. Values for sex, height, and age below the 90^th percentile were considered normotensive, those between the 90^th and 95^th percentile were considered borderline, and those at the 95^th percentile and above were considered to be elevated. The outcome measured in this study was elevated BP, which was determined for the elevated and borderline groups.

Weight and height measurements were performed in triplicate, and the mean value was used. The procedures used for weight and height evaluation followed those proposed by the World Health Organization¹²12. Physical status: the use and interpretation of anthropometry. Report of a who expert committee. World Health Organ Tech Rep Ser. 1995;854:1-452.. The equipment used included a Tanita digital scale (Model 2202), with a capacity of 136 kg and ability to measure to the nearest 100 g, and a SECA stadiometer (Bodymeter 206). The nutritional profile was classified by body mass index (BMI) according to cutoff points adjusted for sex and age, as proposed by Cole¹³13. Cole TJ, Bellizzi MC, Flegal KM, Dietz WH. Establishing a standard definition for child overweight and obesity worldwide: International survey. BMJ. 2000;320(7244):1240-3. ^, ¹⁴14. Cole TJ, Flegal KM, Nicholls D, Jackson AA. Body mass index cut offs to define thinness in children and adolescents: International survey. BMJ. 2007;335(7612):194..

Waist and hip circumferences were obtained by using a metallic measuring tape with an accuracy of 0.1 mm, following the norms described previously¹⁵15. Lohman TG, Roche AF, Martorell R. Anthropometric standardization reference manual. Champaign (IL): Human Kinetics Books; 1988.. These waist and hip parameters allowed construction of the waist-to-hip ratio (WHR), which was the quotient obtained by dividing the waist circumference by the hip circumference.

Socioeconomic level was determined according to the Brazilian Association of Research Firms (ABEP) criteria¹⁶16. Associação Brasileira de Empresas de Pesquisa (ABEP). Critério de classificação econômica 2008. São Paulo; 2008., which considered the presence of consumer goods and educational level of the head of the household. As proposed in the ABEP criteria, educational level was classified as illiterate, primary education, middle education, high school, or superior (university). For our analysis, we divided the children into 2 groups according to heads of households with lower (illiterate, primary, and middle) and higher (high school and university) degree of education. In addition, for analysis purposes, the socioeconomic level was regrouped as follows: level A (classes A1 and A2), level B (classes B1 and B2), level C (C1 and C2), and level D, with A being the highest level and D being the lowest. Inconsistent data in the socioeconomic level of the household head were excluded only for these items.

Statistical analysis

Descriptive statistical values were described as means ± standard deviations (SDs) (quantitative variables) or frequencies and percentages (qualitative variables). Pearson's correlation coefficients were estimated to evaluate the association between systolic and diastolic BP and anthropometric measures. For quantitative variables, one-way ANOVA was used to compare groups defined by BMI (underweight, eutrophic, overweight, and obese). Student's t test was used to compare groups defined by BP levels. The chi-square test was used for comparing qualitative variables among groups. The logistic regression model was adjusted to assess factors associated with normal or borderline/elevated BP. All assumptions of logistic regression were checked and met. Variables with statistical significance in the univariate analysis were included in the multivariable model, and the results are shown as ORs [95% confidence interval (CI)]. Statistical significance was set at p < 0.05. SPSS v.14.0 software was used for data analysis.

Results

The characteristics of the 4,609 schoolchildren between 6 and 11 years of age enrolled in the study were analyzed with regard to their nutritional status (Table 1). In this study, 99.8% of the children declared their race to be white. Population age, type of school health behaviors, and socioeconomic status of the family were recorded.

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Table 1
Distribution of the BMI of studied schoolchildren classified by sex, age, type of school, educational level, and socioeconomic status of the head of household

Fifty-three percent of the children were female, and 78% were studying in public schools. Excess of weight was found in 24.5% of the sample; 16.9% of the children were overweight and 7.6% were obese. Being overweight was more prevalent in males than in females (p = 0.008). The prevalence of being overweight was higher in private than in public schools (22.2% and 15.4%, respectively, p < 0.001), and the distribution of weight varied significantly according to socioeconomic status stratum (p < 0.001).

Table 2 shows BP by age group and its correlation coefficients according to BMI, waist circumference, hip circumference, and WHR ratio. In all age groups, systolic and diastolic BP were both positively and significantly correlated with BMI, waist circumference, and hip circumference but not with WHR (with a significant but low correlation for the 8-year-old children's group). The correlation was stronger for the older age groups than for the younger age groups both for systolic and diastolic BP.

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Table 2
Correlation coefficient between BP (systolic and diastolic) and anthropometric measures (waist, hips, and waist-hip ratio)

The associations between normal and borderline/high BP with sex and socioeconomic characteristics are shown in Table 3. Elevated BP (borderline levels and high BP combined) was found in 14.4% of the total population and was not associated with sex or level of educational or socioeconomic status (p = 0.884, p = 0.683, and p = 0.785). However, while the prevalence of elevated BP was 11.2% in eutrophic children, in those with overweight the prevalence was 20.6% and in the obese children was 39.7%.

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Table 3
Evaluation of elevated blood pressure (BP) (borderline and high BP) according to sex and socioeconomic characteristics

Figure 1 shows the association of elevated BP with age, BMI, and type of school. The chance of having elevated BP increased 19% with every year of increase in age (OR, 1.19; 95% CI, 1.11-1.27). The eutrophic category was used as a reference, and the OR (95% CI) of having elevated BP was 5.40 (4.23-6.89)-fold higher among obese than among eutrophic children. Compared with children in public schools, children in private schools had a marginally significant chance [OR, 1.23; 95% CI, 1.01-1.50] of showing elevated BP.

Figure 1
Association of elevated blood pressure with age, BMI, and type of school. OR: Odds Ratio. ^*Logistic regression model. ^†p value for Wald test; BMI: body mass index.

Discussion

In this study, we showed that excessive weight was highly prevalent in our population of schoolchildren. We also showed that 25% of the evaluated children were overweight or obese. Moreover, we found a significant association between being overweight or obese and elevated BP in this population.

Even though the prevalence determined in this study is concerning, it is still lower than those found in other national studies. Previous reports of studies conducted in Brazil found that the excess weight prevalence among boys in 1974-1975 was 10.9%, increased to 15.0% in 1989, and was 34.8% in 2008-2009. A similar pattern was observed among girls who showed prevalences for the same periods of 8.6%, 11.9%, and 32.0%, respectively. Our findings are in the range of those reported from international population studies. Gupta et al¹⁷17. Gupta N, Goel K, Shah P, Misra A. Childhood obesity in developing countries: Epidemiology, determinants, and prevention. Endocr Rev. 2012;33(1):48-70. reported the prevalences in some other developing countries: 41.8% in Mexico 22.0% in India, and 19.3% in Argentina for populations of similar ages as those in the present study.

In 2002, there were more than 155 million schoolchildren with excess weight worldwide. The prevalence of being overweight is estimated to be increasing 1% every year in developed countries, which affects 15 million children and adolescents¹⁸18. Lobstein T, Baur L, Uauy R; IASO International Obesity TaskForce. Obesity in children and young people: a crisis in public health. Obes Rev. 2004;5 Suppl 1:4-104.. Although underweight status due to malnutrition can occur in early years of life, excessive weight is prevalent among all other ages. Changes in nutritional habits and lack of physical activity in the Brazilian population may explain these findings¹⁹19. Ministério da Saúde. Pesquisa de orçamentos familiares 2008-2009: antropometria e estado nutricional de crianças, adolescentes e adultos no Brasil. Brasília; 2010.. In fact, there is a complex relationship between rapid weight changes in childhood and adolescence and various factors, including genetics, social environment, parental life style, and dietetic behavior²⁰20. Nunes MM, Figueiroa JN, Alves JG. Overweight, physical activity and foods habits in adolescents from different economic levels, Campina Grande (PB). Rev Assoc Med Bras. 2007;53(2):130-4.

21. Taveras EM, Berkey CS, Rifas-Shiman SL, Ludwig DS, Rockett HR, Field AE, et al. Association of consumption of fried food away from home with body mass index and diet quality in older children and adolescents. Pediatrics. 2005;116(4):e518-24.

22. Monteiro P, Victora C, Barros F. Fatores de risco sociais, familiares e comportamentais para obesidade em adolescentes. Rev Panam Salud Publica. 2004;16(4):250-8. ^- ²³23. Coon KA, Goldberg J, Rogers BL, Tucker KL. Relationships between use of television during meals and children's food consumption patterns. Pediatrics. 2001;107(1):E7.. Therefore, several studies have attempted to identify determinants of childhood obesity and associated diseases²⁴24. Araújo TL, Lopes MV, Cavalcante TF, Guedes NG, Moreira RP, Chaves ES, et al. Análise de indicadores de risco para hipertensão arterial em crianças e adolescentes. Rev Esc Enferm USP. 2008:42(1):20-6.

25. Molina Mdel C, Faria CP, Montero MP, Cade NV, Mill JG. Cardiovascular risk factors in 7-to-10-year-old children in Vitoria, Espirito Santo state, Brazil. Cad Saude Publica. 2010;26(5):909-17. ^- ²⁶26. Rosaneli CF, Auler F, Manfrinato CB, Rosaneli CF, Sganzerla C, Bonatto MG, et al. Evaluation of the prevalence and nutritional and social determinants of overweight in a population of schoolchildren: a cross-sectional analysis of 5,037 children. Rev Assoc Med Bras. 2012;58(4):472-6..

Our results showed that obese children had a 5.4% chance of having elevated levels of BP relative to eutrophic children¹⁹19. Ministério da Saúde. Pesquisa de orçamentos familiares 2008-2009: antropometria e estado nutricional de crianças, adolescentes e adultos no Brasil. Brasília; 2010.. High or borderline BP was almost twice as prevalent in overweight children than in eutrophic children, a finding that is consistent with the increasing excess weight and high BP epidemics in schoolchildren seen worldwide. Moreover, we demonstrated that there were positive and moderate correlations between BMI, hip and waist measurements, and BP, mainly systolic, but at present, it is not clear why these correlations with diastolic BP were weaker and why there was no correlation with WHR. Further study is needed in these areas.

The association between elevated BP and obesity shown here is more concerning than that reported in previous studies in Brazil²⁷27. Pinto SL, Silva RdCR, Priore SE, Assis AM, Pinto EdJ. Prevalence of pre-hypertension and arterial hypertension and evaluation of associated factors in children and adolescents in public schools in Salvador, Bahia State, Brazil. Cad Saude Publica. 2011;27(6):1065-76.. In the city of Belo Horizonte²⁸28. Ribeiro RQ, Lotufo PA, Lamounier JA, Oliveira RG, Soares JF, Botter DA. Additional cardiovascular risk factors associated with excess weight in children and adolescents: the Belo Horizonte heart study. Arq Bras Cardiol. 2006;86(6):408-18., overweight and obese children had a 3.6-fold greater risk of having high systolic BP and a 2.7-fold greater risk of elevated diastolic BP than normal-weight students. In another Brazilian study²⁹29. Ribeiro RC, Coutinho M, Bramorski MA, Giuliano IC, Pavan J. Association of the waist-to-height ratio with cardiovascular risk factors in children and adolescents: the three cities heart study. Int J Prev Med. 2010;1(1):39-49., overweight and obese students had a 3.3-fold greater risk of having systolic BP and a 1.9-fold greater risk of having elevated diastolic BP than other students.

To date, most studies in Brazil that evaluated hypertension and its association with obesity before adulthood limited their research to adolescents or included smaller samples of children in the age range assessed in the present research³⁰30. Christofaro DG, Andrade SM, Fernandes RA, Ohara D, Dias DF, Freitas Júnior IF, et al. Prevalência de fatores de risco para doenças cardiovasculares entre escolares em londrina - pr: Diferenças entre classes econômicas. Rev Bras Epidemiol. 2011;14(1):27-35. ^, ³¹31. Alvarez MM, Vieira AC, Sichieri R, Veiga GV. Prevalence of metabolic syndrome and of its specific components among adolescents from Niteroi city, Rio de Janeiro state, Brazil. Arq Bras Endocrinol Metabol. 2011;55(2):164-70.. Our study should help address the previous lack of population-based studies in Brazil and may provide useful information on nutritional profiles and associated childhood risk factors. Hence our findings may have important implications because high BP in childhood is a predictor of hypertension in adults³²32. Beck CC, Lopes AS, Pitanga FJ. Anthropometric indicators as predictors of high blood pressure in adolescents. Arq Bras Cardiol. 2011;96(2):126-33..

Schools provide environments that can promote healthy lifestyle choices, including those regarding nutrition and physical activity, which are decisive factors in disease causation. In our study, because a marginally but significantly higher chance of elevated BP was found for children in private schools, further investigations focusing on socioeconomic variables should be conducted to clarify this association.

In conclusion, excessive weight affected 25% of the schoolchildren in our sample. Although causality cannot be determined in a cross-sectional study, the strong association found between elevated BP and excessive weight, mainly obesity, indicates that future studies should investigate both obesity and BP in children, especially in those who are overweight. Our results indicate that preventive measures targeting young children must be undertaken by those responsible for defining and implementing public health policies in this population.

Author contributions

Conception and design of the research: Rosaneli CF, Oliveira- Netto ER, Oliveira AB, Faria-Neto JR; Acquisition of data: Rosaneli CF, Auler F, Nakashima ATA, Oliveira- Netto ER, Oliveira AB; Analysis and interpretation of the data: Rosaneli CF, Auler F, Nakashima ATA, Olandoski M, Oliveira- Netto ER, Oliveira AB, Baena CP, Guarita-Souza LC, Faria-Neto JR; Statistical analysis: Olandoski M, Baena CP, Faria-Neto JR; Obtaining financing: Oliveira- Netto ER, Oliveira AB; Writing of the manuscript: Rosaneli CF, Olandoski M, Faria-Neto JR; Critical revision of the manuscript for intellectual content: Rosaneli CF, Oliveira- Netto ER, Baena CP, Guarita-Souza LC, Faria-Neto JR.
Sources of Funding

This study was funded by CNPq.
Study Association

This article is part of the thesis of Doctoral submitted by Caroline Filla Rosaneli, from PUCPR.

References

¹
Constantine E, Merritt C. Hypertensive emergencies in children: Identification and management of dangerously high blood pressure. Minerva Pediatr. 2009;61(2):175-84.
²
Monego ET, Jardim PC. Determinants of risk of cardiovascular diseases in schoolchildren. Arq Bras Cardiol. 2006;87(1):37-45.
³
Burke V, Beilin LJ, Dunbar D, Kevan M. Associations between blood pressure and overweight defined by new standards for body mass index in childhood. Prev Med. 2004;38(5):558-64.
⁴
Sharma M. School-based interventions for childhood and adolescent obesity. Obes Rev. 2006;7(3):261-9.
⁵
Barba G, Troiano E, Russo P, Strazzullo P, Siani A. Body mass, fat distribution and blood pressure in southern italian children: Results of the arca project. Nutr Metab Cardiovasc Dis. 2006;16(4):239-48.
⁶
Ribeiro JC, Guerra S, Oliveira J, Andersen LB, Duarte JA, Mota J. Body fatness and clustering of cardiovascular disease risk factors in portuguese children and adolescents. Am J Hum Biol. 2004;16(5):556-62.
⁷
Williams CL, Hayman LL, Daniels SR, Robinson TN, Steinberger J, Paridon S, et al. Cardiovascular health in childhood: a statement for health professionals from the Committee on Atherosclerosis, Hypertension, and Obesity in the Young (AHOY) of the Council on Cardiovascular Disease in the Young, American Heart Association. Circulation. 2002;106(1):143-60. Erratum in Circulation. 2002;106(9):1178.
⁸
Rosa AA, Ribeiro JP. High blood pressure in children and adolescents: determinant factors. J Pediatr (Rio J). 1999;75(2):75-82.
⁹
Salgado CM, Carvalhaes JTA. Hipertensão arterial na infância. J Pediatr (Rio J). 2003;79 Suppl 1:S115-24.
¹⁰
Oliveira-Filho A, Oliveira AA, Oliveira ER, Kurata DM, Pineda M. Variabilidade intra-avaliador e interavaliadores de medidas antropométricas. Acta Sci Health Sci. 2007;29(1):1-5.
¹¹
National High Blood Pressure Education Program Working Group on High Blood Pressure in Children and Adolescents. The fourth report on the diagnosis, evaluation, and treatment of high blood pressure in children and adolescents. Pediatrics. 2004;114(Suppl 2):555-76.
¹²
Physical status: the use and interpretation of anthropometry. Report of a who expert committee. World Health Organ Tech Rep Ser. 1995;854:1-452.
¹³
Cole TJ, Bellizzi MC, Flegal KM, Dietz WH. Establishing a standard definition for child overweight and obesity worldwide: International survey. BMJ. 2000;320(7244):1240-3.
¹⁴
Cole TJ, Flegal KM, Nicholls D, Jackson AA. Body mass index cut offs to define thinness in children and adolescents: International survey. BMJ. 2007;335(7612):194.
¹⁵
Lohman TG, Roche AF, Martorell R. Anthropometric standardization reference manual. Champaign (IL): Human Kinetics Books; 1988.
¹⁶
Associação Brasileira de Empresas de Pesquisa (ABEP). Critério de classificação econômica 2008. São Paulo; 2008.
¹⁷
Gupta N, Goel K, Shah P, Misra A. Childhood obesity in developing countries: Epidemiology, determinants, and prevention. Endocr Rev. 2012;33(1):48-70.
¹⁸
Lobstein T, Baur L, Uauy R; IASO International Obesity TaskForce. Obesity in children and young people: a crisis in public health. Obes Rev. 2004;5 Suppl 1:4-104.
¹⁹
Ministério da Saúde. Pesquisa de orçamentos familiares 2008-2009: antropometria e estado nutricional de crianças, adolescentes e adultos no Brasil. Brasília; 2010.
²⁰
Nunes MM, Figueiroa JN, Alves JG. Overweight, physical activity and foods habits in adolescents from different economic levels, Campina Grande (PB). Rev Assoc Med Bras. 2007;53(2):130-4.
²¹
Taveras EM, Berkey CS, Rifas-Shiman SL, Ludwig DS, Rockett HR, Field AE, et al. Association of consumption of fried food away from home with body mass index and diet quality in older children and adolescents. Pediatrics. 2005;116(4):e518-24.
²²
Monteiro P, Victora C, Barros F. Fatores de risco sociais, familiares e comportamentais para obesidade em adolescentes. Rev Panam Salud Publica. 2004;16(4):250-8.
²³
Coon KA, Goldberg J, Rogers BL, Tucker KL. Relationships between use of television during meals and children's food consumption patterns. Pediatrics. 2001;107(1):E7.
²⁴
Araújo TL, Lopes MV, Cavalcante TF, Guedes NG, Moreira RP, Chaves ES, et al. Análise de indicadores de risco para hipertensão arterial em crianças e adolescentes. Rev Esc Enferm USP. 2008:42(1):20-6.
²⁵
Molina Mdel C, Faria CP, Montero MP, Cade NV, Mill JG. Cardiovascular risk factors in 7-to-10-year-old children in Vitoria, Espirito Santo state, Brazil. Cad Saude Publica. 2010;26(5):909-17.
²⁶
Rosaneli CF, Auler F, Manfrinato CB, Rosaneli CF, Sganzerla C, Bonatto MG, et al. Evaluation of the prevalence and nutritional and social determinants of overweight in a population of schoolchildren: a cross-sectional analysis of 5,037 children. Rev Assoc Med Bras. 2012;58(4):472-6.
²⁷
Pinto SL, Silva RdCR, Priore SE, Assis AM, Pinto EdJ. Prevalence of pre-hypertension and arterial hypertension and evaluation of associated factors in children and adolescents in public schools in Salvador, Bahia State, Brazil. Cad Saude Publica. 2011;27(6):1065-76.
²⁸
Ribeiro RQ, Lotufo PA, Lamounier JA, Oliveira RG, Soares JF, Botter DA. Additional cardiovascular risk factors associated with excess weight in children and adolescents: the Belo Horizonte heart study. Arq Bras Cardiol. 2006;86(6):408-18.
²⁹
Ribeiro RC, Coutinho M, Bramorski MA, Giuliano IC, Pavan J. Association of the waist-to-height ratio with cardiovascular risk factors in children and adolescents: the three cities heart study. Int J Prev Med. 2010;1(1):39-49.
³⁰
Christofaro DG, Andrade SM, Fernandes RA, Ohara D, Dias DF, Freitas Júnior IF, et al. Prevalência de fatores de risco para doenças cardiovasculares entre escolares em londrina - pr: Diferenças entre classes econômicas. Rev Bras Epidemiol. 2011;14(1):27-35.
³¹
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Publication Dates

Publication in this collection
29 July 2014
Date of issue
Sept 2014

History

Received
16 Nov 2013
Reviewed
27 Apr 2014
Accepted
09 May 2014

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Author contributions

Conception and design of the research: Rosaneli CF, Oliveira- Netto ER, Oliveira AB, Faria-Neto JR; Acquisition of data: Rosaneli CF, Auler F, Nakashima ATA, Oliveira- Netto ER, Oliveira AB; Analysis and interpretation of the data: Rosaneli CF, Auler F, Nakashima ATA, Olandoski M, Oliveira- Netto ER, Oliveira AB, Baena CP, Guarita-Souza LC, Faria-Neto JR; Statistical analysis: Olandoski M, Baena CP, Faria-Neto JR; Obtaining financing: Oliveira- Netto ER, Oliveira AB; Writing of the manuscript: Rosaneli CF, Olandoski M, Faria-Neto JR; Critical revision of the manuscript for intellectual content: Rosaneli CF, Oliveira- Netto ER, Baena CP, Guarita-Souza LC, Faria-Neto JR.

[2] Sources of Funding

This study was funded by CNPq.

[3] Study Association

This article is part of the thesis of Doctoral submitted by Caroline Filla Rosaneli, from PUCPR.

Variable	All (n = 4609)	Underweight n = 353 (7.7%)	Eutrophic n = 3128 (67.9%)	Overweight n = 778 (16.9%)	Obese n = 350( 7.6%)	*p-value^ * One-way ANOVA or chi-square test, p < 0.05.**
Gender						0.008
Female	2455 (53.3%)	203 (8,2%)	1695 (69%)	393 (16%)	164 (6,6%)
Male	2154 (46.7%)	150 (6,0%)	1433 (66,5%)	385 (17,8%)	186 (8,6%)
Age (years)	8.63 ± 1.27	8.75 ± 1.23	8.63 ± 1.28	8.78 ± 1.26	8.54 ± 1.28	0.003
Type of school						< 0.001
Private	976 (21.2%)	44(4,5%)	639(65,4%)	217(22,2%)	76(7,5%)
Public	3633 (78.8%)	309(8,5%)	2489(68,5%)	561(15,4%)	274(7%)
Educational level						0.353
Lower	1939 (42.1%)	158 (8,1%)	1328 (68,4%)	308 (15,8%)	145 (7,4%)
Higher	2670 (57.9%)	195 (7,3%)	1800 (67,4%)	470 (17,6%)	205 (7,6%)
Socioeconomic status						< 0.001
A/B	2481 (54.0%)	162 (6,5%)	1635 (65,9%)	480 (19,3%)	204 (8,2%)
C/D	2112 (46.0%)	188 (8,9%)	1482 (70,1%)	296 (14%)	146 (6,9%)

Age (years)	BP (mmHg)	Mean ± SD	BMI (kg/m²)	Waist (cm)	Hips (cm)	Waist-hip ratio
6	Mean ± SD		16.6 ± 2.6	55.1 ± 6.1	64.5 ± 6.53	0.9 ± 0.04
(n = 515)	Systolic	95.4 ± 10.7	0.40^* * Denotes p < 0.05;	0.41^* * Denotes p < 0.05;	0.40^* * Denotes p < 0.05;	0.08
	Diastolic	59.3 ± 9.7	0.30^* * Denotes p < 0.05;	0.30^* * Denotes p < 0.05;	0.30^* * Denotes p < 0.05;	0.05
7	Mean ± SD		16.8 ± 2.6	56.3 ± 6.2	66.5 ± 6.74	0.8 ± 0.04
(n = 1037)	Systolic	96.6 ± 10.9	0.38^* * Denotes p < 0.05;	0.38^* * Denotes p < 0.05;	0.40^* * Denotes p < 0.05;	0.03
	Diastolic	59.5 ± 9.4	0.29^* * Denotes p < 0.05;	0.28^* * Denotes p < 0.05;	0.28^* * Denotes p < 0.05;	0.03
8	Mean ± SD		17.5 ± 3	58.9 ± 7.1	70.3 ± 7.52	0.8 ± 0.04
(n = 1108)	Systolic	98.9 ± 11	0.44^* * Denotes p < 0.05;	0.45^* * Denotes p < 0.05;	0.45^* * Denotes p < 0.05;	0.11^* * Denotes p < 0.05;
	Diastolic	60.5 ± 9.6	0.34^* * Denotes p < 0.05;	0.33^* * Denotes p < 0.05;	0.31^* * Denotes p < 0.05;	0.11^* * Denotes p < 0.05;
9	Mean ± SD		17.9 ± 3.3	60.8 ± 8	73.1 ± 8.06	0.8 ± 0.05
(n = 1045)	Systolic	100.5 ± 10.8	0.45^* * Denotes p < 0.05;	0.44^* * Denotes p < 0.05;	0.47^* * Denotes p < 0.05;	0.07
	Diastolic	60.9 ± 8.9	0.35^* * Denotes p < 0.05;	0.34^* * Denotes p < 0.05;	0.37^* * Denotes p < 0.05;	0.06
10	Mean ± SD		18.5 ± 3.4	63 ± 8.3	76.7 ± 8.49	0.8 ± 0.05
(n = 904)	Systolic	103.5 ± 11.1	0.42^* * Denotes p < 0.05;	0.42^* * Denotes p < 0.05;	0.47^* * Denotes p < 0.05;	0.05
	Diastolic	62.6 ± 9.1	0.34^* * Denotes p < 0.05;	0.32^* * Denotes p < 0.05;	0.37^* * Denotes p < 0.05;	0.02
All	Mean ± SD		17.5 ± 3.1	59.1 ± 7.8	70.7 ± 8.61	0.8 ± 0.05
(n = 4609)	Systolic	99.3 ± 11.2	0.45^* * Denotes p < 0.05;	0.46^* * Denotes p < 0.05;	0.49^* * Denotes p < 0.05;	0.01
	Diastolic	60.7 ± 9.4	0.34^* * Denotes p < 0.05;	0.33^* * Denotes p < 0.05;	0.34^* * Denotes p < 0.05;	0.03

Variable	N	Normal BP n = 3943 (85.6%)	Borderline/High BP n = 666 (14.4%)	*p-value^ * Student's t test or Fisher's exact test, p < 0.05. (univariate)**
Sex
Female	2455	2102 (85.6)	353 (14.4)
Male	2154	1841 (85.5)	313 (14.5)	0.884
Educational level
Lower	1939	1654 (85.3)	285 (14.7)
Higher	2670	2289 (85.7)	381 (14.3)	0.683
Socioeconomic status
A/B	2481	2118 (85.4)	363 (14.6)
C/D	2112	1809 (85.7)	303 (14.3)	0.785

Brasil

Brasil

Elevated Blood Pressure and Obesity in Childhood: A Cross-Sectional Evaluation of 4,609 Schoolchildren

Abstracts

Background:

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Introdução:

Objetivo:

Métodos:

Conclusão:

Introduction

Methods

Data collection

Statistical analysis

Results

Discussion

References

Publication Dates

History