Abstracts

Introduction

It is estimated that the percentage of chronic noncommunicable degenerative diseases, such as osteoporosis, will increase by 57% by 2020. Osteoporosis is defined by the World Health Organization (WHO) as a systemic metabolic disease, characterized by reductions in bone mass and deterioration of the microarchitecture of bone tissue. Osteopenia, in turn, is a reduction in bone mass without compromise to microarchitecture. Despite these different definitions, the consequence of both is increased bone fragility and, therefore, greater susceptibility to fractures^{( 1}1. Organizacíon Mundial de la Salud [homepage on the Internet]. Dieta, nutricíon y prevencíon de enfermedades crônicas [cited 2013 Sep 17]. Available from: http://www.who.int/nutrition/publications/obesity/WHO_TRS_916_spa.pdf
http://www.who.int/nutrition/publication... ⁾.

Bone mineral density (BMD) in adulthood is dependent on the peak bone mass acquired by the end of the second decade of life. Although there is no consensus on the age at which peak bone mass is reached, several authors believe that around 40% of bone mass is accumulated by 11-14 years of age in girls and 13-17 years of age in boys^{( 1}1. Organizacíon Mundial de la Salud [homepage on the Internet]. Dieta, nutricíon y prevencíon de enfermedades crônicas [cited 2013 Sep 17]. Available from: http://www.who.int/nutrition/publications/obesity/WHO_TRS_916_spa.pdf
http://www.who.int/nutrition/publication... ^{, 2}2. Silva CC, Teixeira AS, Goldberg TB. The impact of calcium ingestion on the bone mineralization in adolescents. Rev Nutr 2004;17:351-9. ⁾. Good bone structure is of fundamental importance and is considered one of the most effective means of preventing osteoporosis at advanced ages^{( 1}1. Organizacíon Mundial de la Salud [homepage on the Internet]. Dieta, nutricíon y prevencíon de enfermedades crônicas [cited 2013 Sep 17]. Available from: http://www.who.int/nutrition/publications/obesity/WHO_TRS_916_spa.pdf
http://www.who.int/nutrition/publication... ⁾.

The principal determinant of bone formation is calcium in the diet. If dietary availability of calcium is inadequate, the body will transport calcium from the bones into the bloodstream, increasing their fragility^{( 3}3. Grüdtner VS, Weingrill P, Fernandes AL. Absorption aspects of calcium and vitamin D metabolism. Rev Bras Reumatol 1997;37:143-51. ⁾. Calcium requirements vary by age group and are higher during periods of rapid growth, such as during adolescence, when the requirement is around 1300mg/day^{( 2}2. Silva CC, Teixeira AS, Goldberg TB. The impact of calcium ingestion on the bone mineralization in adolescents. Rev Nutr 2004;17:351-9. ⁾.

An adequate intake of calcium during childhood and adolescence is therefore fundamental for prevention of osteoporosis, which is the reason for evaluating the calcium intake profiles of adolescents. Several studies conducted at other centers have shown that the younger population does not meet the daily recommendations for age and sex^{( 4}4. Novotny R, Boushey C, Bock MA, Peck L, Auld G, Bruhn CM et al. Calcium intake of Asian, Hispanic and white youth. J Am Coll Nutr 2003;22:64-70.

5. Lerner BR, Lei DL, Chaves SP, Freire RD. Consumption of calcium by adolescents from public school em Osasco, São Paulo, Brazil. Rev Nutr 2000;13:57-63.

6. Rodrigues AM, Cintra IP, Santos LC, Martini LA, Mello MT, Fisberg M. Bone mineral density, body composition, and food intake of adolescent runway models. J Pediatr (Rio J) 2009;85:503-8.

7. Peters BS, dos Santos LC, Fisberg M, Wood RJ, Martini LA. Prevalence of vitamin D insuficiency in Brazilian adolescents. Ann Nutr Metab 2009;54:15-21.

8. Peters BS, Verly E Jr, Marchioni DM, Fisberg M, Martini LA. The influence of breakfast and dairy products on dietary calcium and vitamin D intake in postpubertal adolescents and young adults. J Hum Nutr Diet 2012;25:69-74. ^{- 9}9. Santos LC, Martini LA, Freitas SN, Cintra IP. Calcium intake and anthropometric indicators in adolescents. Rev Nutr 2007;20:275-83. ⁾. While the city of Chapecó, SC, has some of the best socioeconomic indicators in Brazil, the majority of children enrolled in primary education are studying in public schools, which are covered by a school meals system. Accumulation of data on the calcium intake in the city could provide a basis for a realignment of the school meals menus, in addition to promoting educational interventions in the city. Therefore, the objective of this study was to compare mean calcium intakes among adolescents at schools in Chapecó with those recommended by the Dietary Reference Intakes (DRI) and evaluate factors possibly associated with intakes.

Method

This project was approved by the Research Ethics Committee at the Hospital de Clínicas de Porto Alegre (protocol number 10-0214). It is a cross-sectional study of eighth-grade students at public (state and municipal) and private schools in the municipal district of Chapecó during the 2010 academic year. The sample frame took account of the proportions of numbers of students enrolled in the public and private systems. Clusters (classes) were chosen from schools and all students in each cluster were considered potentially eligible. Adolescents were excluded if they had chronic diseases (defined as those needing continuous treatment) or mental and psychiatric disorders that could interfere with understanding or participation, if they reported taking calcium as a drug treatment, were absent from school on the day of data collection or if they were enrolled at indigenous schools.

Students completed a questionnaire comprising objective questions on their socioeconomic characteristics, dietary habits and physical activity practices and a food frequency questionnaire^{( 10}10. Uenishi K, Ishida H, Nakamura K. Development of a simple food frequency questionnaire to estimate intakes of calcium and other nutrients for the prevention and management of osteoporosis. J Nutr Sci Vitaminol (Tokyo) 2008;54:25-9. ⁾ that covered foods rich in calcium and was tailored to the dietary habits of the adolescents in the region. The list of food items was based on a previously validated food frequency questionnaire^{( 10}10. Uenishi K, Ishida H, Nakamura K. Development of a simple food frequency questionnaire to estimate intakes of calcium and other nutrients for the prevention and management of osteoporosis. J Nutr Sci Vitaminol (Tokyo) 2008;54:25-9. ^{, 11}11. Ataíde e Silva T, Vasconcelos SM. Methodological procedures used in food frequency questionnaires made in Brazil: a systematic review. Rev Nutr 2012;25:785-97. ⁾.

Before administration of the questionnaires, which took place in a classroom during lesson time, and for all classes selected, the lead researcher explained the answer method and the meaning of the questions, remaining in the classroom while the students completed the questionnaires. The portion sizes for each food were illustrated on a poster with color photographs. The portion sizes were defined as recommended by Monteiro^{( 12}12. Monteiro JP. Nutrição e metabolismo - consumo alimentar: visualizando porções. Rio de Janeiro: Guanabara Koogan; 2007. ⁾.

The food frequency questionnaire for calcium asked about the quantities (in portions) and frequency of intake of the following foods: milk, yoghurt, ricotta, cheeses (minas, lanche and mussarela), processed cheese spread, cheese sourdough, oats, beans, dark green vegetables (water cress, rocket, collard greens, spinach and broccoli), cauliflower, fish (pescada), cake, ice cream and sweets containing milk (crème caramel). Foods were classified by frequency of consumption into five categories: never eaten or rarely eaten in the last year (N) or the number of times, from one to ten, and a letter to indicate the period, per day (D), per week (W), per month (M) or per year (Y). Portion sizes were classified into four categories: "S" - portion smaller than the average portion as shown on the poster; "M" - equivalent to the average portion; "L" - larger than the average portion; "VL"- much larger than the average portion^{( 12}12. Monteiro JP. Nutrição e metabolismo - consumo alimentar: visualizando porções. Rio de Janeiro: Guanabara Koogan; 2007. ⁾.

A descriptive analysis was conducted of the general characteristics of the students and strata by education system: private schools, state schools or municipal schools. Both parametric and nonparametric tests were employed to compare groups of schoolchildren whose dietary calcium intake was adequate according to their DRIs with those whose intake was inadequate. Continuous variables with symmetrical distribution were expressed as means and standard deviations; other variables were expressed as medians with interquartile ranges. The significance level was set at 5% and analyses were conducted using the Statistical Package for the Social Sciences (SPSS) 18.

The sample size calculation was based on the number of students enrolled in the eighth grade in Chapecó (n=3,054) and their distribution across private schools (n=220; 7.2%), the municipal education system (n=797; 26.1%) and the state education system (n=2,037; 66.7%). Based on the findings of a study conducted in Osasco, SP, Brazil^{( 5}5. Lerner BR, Lei DL, Chaves SP, Freire RD. Consumption of calcium by adolescents from public school em Osasco, São Paulo, Brazil. Rev Nutr 2000;13:57-63. ⁾, which found that from 2.8 to 6.2% had adequate intakes, and accepting a sampling error of 5%, the sample size was estimated at 44 students. In view of the fact that cluster sampling had been adopted, one class was selected from a private school, two from municipal schools and six from schools run by the state education authority, in order to respect the proportionality of distribution of students and classes across private, municipal and state schools.

Results

A total of 214 adolescents were investigated, predominantly from public schools (95%), with distribution in social classes A (9.1%), B (61.6%) and C (29.3%). Nine percent of the schoolchildren were only children, 34.8% had one sibling, 24.8% had two siblings and the remainder (39.4%) had three or more siblings. The remaining characteristics of the study participants are shown in Table 1.

Median daily calcium intake per student was 540mg (interquartile range - IQ: 312-829). Just 25 schoolchildren (11.7%), all at public schools, had calcium intake within the daily recommendations for their age group.

Of the 207 schoolchildren who provided information about breakfast, 49.3% reported having breakfast every day, while 20% stated they almost never had breakfast and 30.7% that they never had breakfast.

Regular intakes of foods that can be associated with calcium absorption, such as soft drinks, meat, eggs and tea or coffee, except milk and its derivatives, are shown in Table 1.

Univariate analysis did not detect a significant difference between percentage of students at public and private schools with calcium intakes in line with the DRI recommendations (12.3 versus 0%; p=0.37).

An association was observed between drinking soft drinks three or more times/week and less adequate calcium intake (p=0.04). No other significant differences were observed between schoolchildren with and without adequate calcium intake (Table 1).

Discussion

This study shows that the eighth-grade adolescents from the city of Chapecó have calcium intakes below what is recommended by the DRIs for their age group.

This study is representative of the population of eighth-grade schoolchildren in the municipal district of Capac, who proved similar to populations described in other studies conducted in Brazil and elsewhere. The most similar study in terms of the age group investigated was conducted in the city of Osasco, also in Brazil^{( 5}5. Lerner BR, Lei DL, Chaves SP, Freire RD. Consumption of calcium by adolescents from public school em Osasco, São Paulo, Brazil. Rev Nutr 2000;13:57-63. ⁾. Comparison with the study in Osasco reveals that a larger proportion of the students assessed in Chapecó have adequate calcium intakes for their age group (11.7%), since in the Osasco study just 6.2% of males and 2.8% of females had intakes of 1200mg/day or more, which is the minimum level for the age group in the study. In contrast, a study by Rodrigues et al, that investigated mean daily calcium intake among catwalk models found that 18.2% of those adolescents had adequate intake^{( 6}6. Rodrigues AM, Cintra IP, Santos LC, Martini LA, Mello MT, Fisberg M. Bone mineral density, body composition, and food intake of adolescent runway models. J Pediatr (Rio J) 2009;85:503-8. ⁾. Peters et al investigated calcium and vitamin D intake in postpubescent adolescents, observing that just 3.8% of them consumed the recommended quantity (682.2±132.2mg/day)^{( 7}7. Peters BS, dos Santos LC, Fisberg M, Wood RJ, Martini LA. Prevalence of vitamin D insuficiency in Brazilian adolescents. Ann Nutr Metab 2009;54:15-21. ⁾. Santos et al reported mean calcium consumption by adolescents of 703.7±396.0mg/day^{( 9}9. Santos LC, Martini LA, Freitas SN, Cintra IP. Calcium intake and anthropometric indicators in adolescents. Rev Nutr 2007;20:275-83. ⁾.

Assessing the mean quantity of calcium consumed by the adolescents from Chapecó, it is observed that the mean calcium intake of 540mg/day was lower than reported in studies by Lerner et al, in Osasco (600mg/day)^{( 5}5. Lerner BR, Lei DL, Chaves SP, Freire RD. Consumption of calcium by adolescents from public school em Osasco, São Paulo, Brazil. Rev Nutr 2000;13:57-63. ⁾, Rodrigues et al, with adolescent catwalk models (700mg/day)^{( 6}6. Rodrigues AM, Cintra IP, Santos LC, Martini LA, Mello MT, Fisberg M. Bone mineral density, body composition, and food intake of adolescent runway models. J Pediatr (Rio J) 2009;85:503-8. ⁾, Novotny et al, whose sample was of Asian and Hispanic adolescents (998mg/day)^{( 4}4. Novotny R, Boushey C, Bock MA, Peck L, Auld G, Bruhn CM et al. Calcium intake of Asian, Hispanic and white youth. J Am Coll Nutr 2003;22:64-70. ⁾, Peters et al, who assessed postpubescent adolescents and young adults (682mg/day)^{( 8}8. Peters BS, Verly E Jr, Marchioni DM, Fisberg M, Martini LA. The influence of breakfast and dairy products on dietary calcium and vitamin D intake in postpubertal adolescents and young adults. J Hum Nutr Diet 2012;25:69-74. ⁾, and also than Santos et al, who analyzed mean calcium intake in adolescents (703.7mg/day)^{( 9}9. Santos LC, Martini LA, Freitas SN, Cintra IP. Calcium intake and anthropometric indicators in adolescents. Rev Nutr 2007;20:275-83. ⁾.

Another important point is that students who reported drinking cola-style soft drinks three or more times per week had lower daily calcium intake (p=0.04). On the basis of this finding, it could be concluded that, in addition to consuming fewer foods rich in calcium, such as milk and dairy products, these students may also have calcium absorption compromised by drinking more soft drinks. The results of the present study did not reveal any associations between consumption of other foods that interfere with calcium absorption (meat and eggs - sources of proteins - and tea/coffee - sources of caffeine) and consumption of foods that are sources of calcium.

This study also failed to detect any significant association between greater intake of milk by family members and greater consumption by the student, although the data did show that students' siblings consumed more than their parents.

There was a considerable, although not significant difference in terms of physical activity between students whose calcium intake was adequate according to the Food and Agriculture Organization (FAO)/WHO^{( 13}13. World Health Organization [homepage on the Internet]. Vitamin and mineral requirements in human nutrition [cited 2013 Sep 17]. Available from: http://whqlibdoc.who.int/publications/2004/9241546123.pdf
http://whqlibdoc.who.int/publications/20... ⁾ and those whose intakes were not. This is extremely important, since students whose calcium intakes were adequate were also benefiting from better absorption of the mineral, since physical activity facilitates absorption^{( 14}14. Almeida Jr BR, Rodrigues RL. Influência da atividade física e da ingestão de cálcio na osteoporose. Motriz 1997;3:50-5. ⁾.

There was no evidence of differences in calcium intake between the sexes. Boys and girls were equal in terms of the quantities of calcium consumed, in common with studies undertaken in Osasco^{( 5}5. Lerner BR, Lei DL, Chaves SP, Freire RD. Consumption of calcium by adolescents from public school em Osasco, São Paulo, Brazil. Rev Nutr 2000;13:57-63. ⁾ and Ouro Preto, MG, both in Brazil^{( 9}9. Santos LC, Martini LA, Freitas SN, Cintra IP. Calcium intake and anthropometric indicators in adolescents. Rev Nutr 2007;20:275-83. ⁾. There was also no difference in calcium intake between students who studied in the mornings and those who studied in the afternoons.

Osteopenia and osteoporosis are common problems in adulthood, but they can be prevented during adolescence through healthy dietary habits. In addition to improving quality of life for individual people, this simple practice would reduce public spending on healthcare^{( 15}15. Pereira GA, Genaro PS, Pinheiro MM, Szejnfeld VL, Martini LA. Cálcio dietético - estratégias para otimizar o consumo. Rev Bras Reumatol 2009;49:164-80.

16. Kowalski SC, Sjenzfeld VL, Ferraz MB. Utilização de recursos e custos em osteoporose. Rev Assoc Med Bras 2001;47:352-7.

17. Lau EM. Epidemiology of osteoporosis. Best Pract Res Clin Rheumatol 2001;15:335-44. ^{- 18}18. Pinheiro MM, Schuch NJ, Genaro PS, Ciconelli RM, Ferraz MB, Martini LA. Nutrient intakes related to osteoporotic fractures in men and women - The Brazilian Osteoporosis Study (BRAZOS). Nutr J 2009;8:6. ⁾. It is therefore necessary that health professionals exert themselves to stimulate increased consumption of food rich in calcium by adolescents, in order to prevent osteoporosis and its consequences. In Chapecó, after the results of this research were returned to the schools, their menus were modified to increase the offer of milk-based products in an attempt to meet the daily calcium requirements of the age group studied.

It was concluded that the majority of this sample was not consuming adequate levels of calcium for their age group and sex, according to the FAO/WHO recommendation of 1300mg/day^{( 1}1. Organizacíon Mundial de la Salud [homepage on the Internet]. Dieta, nutricíon y prevencíon de enfermedades crônicas [cited 2013 Sep 17]. Available from: http://www.who.int/nutrition/publications/obesity/WHO_TRS_916_spa.pdf
http://www.who.int/nutrition/publication... ^{, 13}13. World Health Organization [homepage on the Internet]. Vitamin and mineral requirements in human nutrition [cited 2013 Sep 17]. Available from: http://whqlibdoc.who.int/publications/2004/9241546123.pdf
http://whqlibdoc.who.int/publications/20... ⁾.

The limitations of this study are related to the applicability of the questionnaire, since it was dependent on complete and honest responses from the adolescents. In common with other studies that have been mentioned, this investigation found low calcium intake in the adolescent population of the city of Chapecó, which is a public health problem that is not restricted to this locale.

The findings of this study show that it is necessary to develop a program to encourage greater consumption of calcium in the age group investigated. Providing adolescents and their families/carers with information and practical examples of sources of foods rich in calcium, their quantities in each food and the factors that facilitate or interfere with absorption would improve understanding of the importance of formation and maintenance of bone mineral density for prevention of osteopenia and osteoporosis.

References

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History