Is the local food environment associated with excess body weight in adolescents in São Paulo, Brazil?

Nogueira, Luana Romão; Fontanelli, Mariane de Mello; Aguiar, Breno Souza de; Failla, Marcelo Antunes; Florindo, Alex Antonio; Leme, Ana Carolina; Barbosa, João Paulo dos Anjos Souza; Fisberg, Regina Mara

doi:10.1590/0102-311x00048619

Abstracts

The obesogenic environment stimulates an inadequate diet by hampering healthy choices. This cross-sectional study evaluated the association between the local food environment and the prevalence of overweight and obesity in a representative sample population of adolescents living in the city of São Paulo, Brazil, using multilevel logistic regression models. Among the adolescents, 29.6% were overweight/obese. There were no significant differences between food environment and adolescents’ weight status. However, the presence of fast food restaurants near their home increased the chances of being overweight or obese (OR = 2.53; 95%CI: 1.02-6.27). Results suggest the need to intensify food and nutrition policies, development of culinary skills, and the reduction in prices of healthy foods to facilitate access to these foods, so that adolescents have options in locations to socialize with friends and family.

Keywords:
Feeding Behavior; Adolescent; Body Mass Index; Fast Foods

O ambiente obesogênico estimula uma dieta inadequada, ao dificultar escolhas alimentares saudáveis. Este estudo transversal avaliou a associação entre o ambiente alimentar local e a prevalência de sobrepeso e obesidade em uma amostra representativa da população de adolescentes residentes na cidade de São Paulo, Brasil, usando modelos de regressão logística multinível. Entre os adolescentes, 29,6% apresentavam sobrepeso ou obesidade. Não houve diferenças significativas entre o ambiente alimentar e o status de peso dos adolescentes. Entretanto, a presença de restaurantes de fast food próximos ao domicílio aumentava a probabilidade de apresentarem sobrepeso ou obesidade (OR = 2,53; IC95%: 1,02-6,27). Os resultados sugerem a necessidade de intensificar as políticas de alimentação e nutrição, o desenvolvimento de habilidades culinárias e a redução nos preços dos alimentos para facilitar o acesso a eles, de maneira que os adolescentes disponham de opções saudáveis em locais para socializar com amigos e familiares.

Palavras-chave:
Comportamento Alimentar; Adolescente; Índice de Massa Corporal; Fast Foods

El ambiente obesogénico estimula una dieta inadecuada, al dificultar elecciones alimentarias saludables. Este estudio transversal evaluó la asociación entre el ambiente alimentario local y la prevalencia de sobrepeso y obesidad en una muestra representativa de la población de adolescentes residentes en la ciudad de São Paulo, Brasil, usando modelos de regresión logística multinivel. Entre los adolescentes, un 29,6% presentaban sobrepeso u obesidad. No hubo diferencias significativas entre el ambiente alimentario y el estado de peso de los adolescentes. No obstante, la presencia de restaurantes de fast food cercanos al domicilio aumentaba la probabilidad de presentar sobrepeso u obesidad (OR = 2,53; IC95%: 1,02-6,27). Los resultados sugieren la necesidad de intensificar las políticas de alimentación y nutrición, el desarrollo de habilidades culinarias y la reducción de los precios de los alimentos para facilitar el acceso a ellos, de forma que los adolescentes dispongan de opciones saludables en lugares para socializar con amigos y familiares.

Palabras-clave:
Conducta Alimentaria; Adolescente; Índice de Masa Corporal; Comida Rápida

Introduction

Overweight and obesity are conditions involving abnormal or excessive fat accumulation, potentially impairing health by increasing the risk of chronic non-communicable diseases ¹1. World Health Organization. What are obesity and overweight. https://www.who.int/news-room/fact-sheets/detail/obesity-and-overweight (accessed on 19/May/2019).
https://www.who.int/news-room/fact-sheet... . Pediatric obesity is one of the most critical public health issues worldwide, with 107.7 million children and adolescents affected by this condition ²2. GBD 2015 Obesity Collaborators; Afshin A, Forouzanfar MH, Reitsma MB, Sur P, Estep K, et al. Health effects of overweight and obesity in 195 countries over 25 years. N Engl J Med 2017; 377:13-27.. Given that among Brazilian adolescents in 2015, 17.1% were overweight and 8.4% were obese, Brazilian youth are not impervious to this global public health crisis ³3. Bloch KV, Klein CH, Szklo M, Kuschnir MC, Abreu GA, Barufaldi LA, et al. ERICA: prevalences of hypertension and obesity in Brazilian adolescents. Rev Saúde Pública 2016; 50 Suppl 1:9s.. Specifically, in the city of São Paulo, data showed an increase in prevalence over 2003-2008 and 2008-2015 ⁴4. Pereira JL, Vieira D, Alves M, Cesar CLG, Goldbaum M, Fisberg RM. Excess body weight in the city of Sao Paulo: panorama from 2003 to 2015, associated factors and projection for the next years. BMC Public Health 2018; 18:1332.. The prevalence of overweight and obesity in adolescents was 16.2% and 3.7% in 2003, 16.1% and 5.9% in 2008, and 19.5% and 7.6% in 2015 ³3. Bloch KV, Klein CH, Szklo M, Kuschnir MC, Abreu GA, Barufaldi LA, et al. ERICA: prevalences of hypertension and obesity in Brazilian adolescents. Rev Saúde Pública 2016; 50 Suppl 1:9s., respectively.

While non-modifiable mechanisms play a role in youth obesity, the influence of modifiable factors such as physical activity, sedentary behaviors ⁵5. Mihrshahi S, Drayton BA, Bauman AE, Hardy LL. Associations between childhood overweight, obesity, abdominal obesity and obesogenic behaviors and practices in Australian homes. BMC Public Health 2017; 18:44., and dietary intake ⁶6. GBD 2017 Diet Collaborators. Health effects of dietary risks in 195 countries, 1990-2017: a systematic analysis for the Global Burden of Disease Study 2017. Lancet 2019; 393:1958-72. has also been proven ⁷7. Han JC, Lawlor DA, Kimm SY. Childhood obesity. Lancet 2010; 375:1737-48.. In the past 5 years, the diet of Brazilian adolescents has been characterized by foods high in energy, added sugars, solid fatty acids, and sodium, but with lower quantities of fruits, vegetables, and other food sources of vitamins, minerals, and fibers ⁸8. Leme ACB, Fisberg RM, Thompson D, Philippi ST, Nicklas T, Baranowski T. Brazilian children's dietary intake in relation to Brazil's new nutrition guidelines: a systematic review. Curr Nutr Rep 2019; 8:145-66.. Inappropriate eating and lifestyle behaviors such as physical inactivity and more time spent doing sedentary activities are the environmental factors that result in excess energy intake and reduced energy expenditure ⁹9. de Vet E, de Ridder DT, de Wit JB. Environmental correlates of physical activity and dietary behaviours among young people: a systematic review of reviews. Obes Rev 2011; 12:e130-42.^,¹⁰10. Pitt E, Gallegos D, Comans T, Cameron C, Thornton L. Exploring the influence of local food environments on food behaviours: a systematic review of qualitative literature. Public Health Nutr 2017; 20:2393-405.. All these factors, with exception at the individual level, are risk factors for obesity in children and adolescents and are known to constitute the obesogenic environment ⁹9. de Vet E, de Ridder DT, de Wit JB. Environmental correlates of physical activity and dietary behaviours among young people: a systematic review of reviews. Obes Rev 2011; 12:e130-42.^,¹¹11. Fisberg M, Maximino P, Kain J, Kovalskys I. Obesogenic environment - intervention opportunities. J Pediatr (Rio J.) 2016; 92(3 Suppl 1):S30-9..

Food environments are the collective physical, economic, policy, and sociocultural surroundings, opportunities, and conditions that play an important role on an individual’s food and beverage choices and weight status ¹²12. Swinburn B, Vandevijvere S, Kraak V, Sacks G, Snowdon W, Hawkes C, et al. Monitoring and benchmarking government policies and actions to improve the healthiness of food environments: a proposed Government Healthy Food Environment Policy Index. Obesity Rev 2013; 14 Suppl 1:24-37.. The local food environment has been classified and assessed based on different types of food venues, including supermarkets, street markets, fast food restaurants, restaurants, and convenience stores, available to individuals near their residence ¹⁰10. Pitt E, Gallegos D, Comans T, Cameron C, Thornton L. Exploring the influence of local food environments on food behaviours: a systematic review of qualitative literature. Public Health Nutr 2017; 20:2393-405.. International studies have shown that living far from grocery stores and farmer markets ¹³13. Carroll-Scott A, Gilstad-Hayden K, Rosenthal L, Peters SM, McCaslin C, Joyce R, et al. Disentangling neighborhood contextual associations with child body mass index, diet, and physical activity: the role of built, socioeconomic, and social environments. Soc Sci Med 2013; 95:106-14., and in areas with fewer sit-down restaurants ¹⁴14. Chen HJ, Wang Y. Changes in the neighborhood food store environment and children's body mass index at peripuberty in the United States. J Adolesc Health 2016; 58:111-8., is associated with a higher body mass index (BMI). These studies have also shown that sex ¹⁴14. Chen HJ, Wang Y. Changes in the neighborhood food store environment and children's body mass index at peripuberty in the United States. J Adolesc Health 2016; 58:111-8. and income status ¹⁰10. Pitt E, Gallegos D, Comans T, Cameron C, Thornton L. Exploring the influence of local food environments on food behaviours: a systematic review of qualitative literature. Public Health Nutr 2017; 20:2393-405.^,¹³13. Carroll-Scott A, Gilstad-Hayden K, Rosenthal L, Peters SM, McCaslin C, Joyce R, et al. Disentangling neighborhood contextual associations with child body mass index, diet, and physical activity: the role of built, socioeconomic, and social environments. Soc Sci Med 2013; 95:106-14. play an important role on teenagers’ food choices and weight status. Moreover, the built, socioeconomic and social characteristics of a neighborhood environment co-occur ¹³13. Carroll-Scott A, Gilstad-Hayden K, Rosenthal L, Peters SM, McCaslin C, Joyce R, et al. Disentangling neighborhood contextual associations with child body mass index, diet, and physical activity: the role of built, socioeconomic, and social environments. Soc Sci Med 2013; 95:106-14..

Few Brazilian research studies have simultaneously investigated the relationship between food environment and adolescent obesity. A study performed on children (aged 7-10 years) and adolescents (aged 11-14 years) from public schools in Juiz Fora, Minas Gerais State, showed that the lowest deprivation level had a higher density of establishments predominantly selling unhealthy foods (e.g., candy shops, cafeterias, fast food restaurants, and corner stores) ¹⁵15. Assis MM, Leite MA, Carmo ASD, Andrade ACS, Pessoa MC, Netto MP, et al. Food environment, social deprivation and obesity among students from Brazilian public schools. Public Health Nutr 2019; 22:1920-7.. An inverse association was found between the density of supermarkets and the presence of obesity. Another study conducted in the coastal area of São Paulo ¹⁶16. Vedovato GM, Trude AC, Kharmats AY, Martins PA. Degree of food processing of household acquisition patterns in a Brazilian urban area is related to food buying preferences and perceived food environment. Appetite 2015; 87:296-302. examined the association between local food environment and mothers’ purchase of ultra-processed foods. Results showed a significant inverse association between the higher availability of a variety of fresh produce in supermarkets and the odds of ultra-processed foods purchase. After adjusting for sociodemographic variables, higher odds of minimally processed food acquisition were associated with frequent use of other markets to buy fruits and vegetables, walking to buy food, and perceived availability of fresh produce in participants’ neighborhood. Purchasing ultra-processed foods was positively associated with the use of automotive transportation for food shopping and negatively associated with perceived availability of fresh produce in the neighborhood.

The objective of this study was to explore the association between the local food environment and the prevalence of overweight and obesity in a representative sample population of adolescents living in the city of São Paulo.

Materials and methods

Cross-sectional analyses were conducted using data obtained from adolescents aged from 12 to 19 years, who participated in the 2015 Health Survey in São Paulo City (acronym in Portuguese is 2015 ISA-Capital). This study was approved by the Institutional Review Board (IRB) of the School of Public Health, University of São Paulo (CAAE n. 65228317.1.0000.5421). Parents and caregivers provided written informed consent prior to the adolescents’ participation in this study.

Study sample

The 2015 ISA-Capital is a household population-based survey done on a representative probabilistic population sample of individuals aged 12 years and more, living in the city of São Paulo. This survey is conducted on an average of every five years (i.e., 2003, 2008, and 2015), and is aimed at evaluating health status, lifestyle, and health services usage ¹⁷17. Alves M, Escuder MML, Goldbaum M, Barros MBA, Fisberg RM, Cesar CLG. Sampling plan in health surveys, city of Sao Paulo, Brazil, 2015. Rev Saúde Pública 2018; 52:81.. A sub-sample of the 2015 ISA-Capital has been designed with a focus on nutrition (2015 ISA-Nutrition) and is aimed at evaluating the association of lifestyle-related risk factors with biochemical and genetic markers, and the environmental factors related to non-communicable diseases ¹⁸18. Fisberg RM, Sales CH, Fontanelli MM, Pereira JL, Alves MCGP, Escuder MML, et al. 2015 Health Survey of Sao Paulo with focus in nutrition: rationale, design, and procedures. nutrients. 2018; 10(2). pii: E169..

Samples size calculation of this study was stratified into five sets of census tracts based on the municipality’s geographical areas of health assistance: North, Central, Southeast, South, and East. Initially, 30 urban census tracts were randomly selected from each geographical area, adding up to 150 primary sampling units in the municipality. Secondly, private households were systematically selected in each census tract, considering the demographic domains used for sample planning: geographical area for health assistance, district/sector, age group, and sex. The individuals in the selected households, in alignment with the demographic domains, were invited for interviews. A total of 4,059 interviews were carried out in the 2015 ISA-Capital (with 865 adolescents, 2,169 adults, and 1,025 elderly individuals). Additional details on the 2015 ISA-Capital can be found elsewhere ¹⁷17. Alves M, Escuder MML, Goldbaum M, Barros MBA, Fisberg RM, Cesar CLG. Sampling plan in health surveys, city of Sao Paulo, Brazil, 2015. Rev Saúde Pública 2018; 52:81..

The sub-sample, 2015 ISA-Nutrition was maintained for representativeness, resulting in a sample that allows estimates of proportions of 0.50, with a sampling error of seven percentage points, considering a 95% confidence level and a delineation effect of 1.5. Data collection was conducted from February 2015 to 2016. Further details of 2015 ISA-Nutrition can be found elsewhere ¹⁸18. Fisberg RM, Sales CH, Fontanelli MM, Pereira JL, Alves MCGP, Escuder MML, et al. 2015 Health Survey of Sao Paulo with focus in nutrition: rationale, design, and procedures. nutrients. 2018; 10(2). pii: E169.. In total, 1,737 individuals older than 12 years participated in this sub-sample. This study used only the data from adolescents. In the ISA-Nutrition, 553 adolescents participated. However, only 504 adolescents with complete answers for weight and height in the structure questionnaire, recorded from at least one 24-h dietary recall, and geocoded residence addresses, were included in this analysis.

Data collection and processing

Demographic, socioeconomic, and lifestyle behaviors were assessed using a structured questionnaire applied by trained interviewers at the participant’s residence. For this study, the following variables were used: (i) age (categorized as ages 12-15 years and 16-19 years); (ii) sex (male and female); (iii) race (white and non-white); and (iv) family income per capita (≤ 1 minimum wage, more than 1 minimum wage, or no response).

Perception of violence in the living area was assessed using the question, “How would you classify the area in which you live, in terms of violence and security?”. The violence in the living area variable was categorized as: totally safe, kind of safe, kind of violent, and totally violent. Data about the length of residence at the house was collected using the question, “How long have you been living in this house?”. This variable was categorized as ≤ 5 or > 5 years of living in the same house.

Information on physical activity was obtained using the long-version International Physical Activity Questionnaire - IPAQ ¹⁹19. Craig CL, Marshall AL, Sjostrom M, Bauman AE, Booth ML, Ainsworth BE, et al. International physical activity questionnaire: 12-country reliability and validity. Med Sci Sports Exerc 2003; 35:1381-95., adapted to Brazilian conditions ²⁰20. Matsudo S, Araújo T, Matsudo V, Andrade D, Andrade E, Oliveira LC, et al. Questionário Internacional de Atividade Física (IPAQ): estudo de validade e reprodutibilidade no Brasil. Rev Bras Ativ Fís Saúde 2001; 6:5-18.. IPAQ assesses physical activity in different contexts or domains, related to occupation, daily living routines (e.g., domestic activities, active commuting), and leisure (e.g., recreational activities, exercise, and sports) ²¹21. Samitz G, Egger M, Zwahlen M. Domains of physical activity and all-cause mortality: systematic review and dose-response meta-analysis of cohort studies. Int J Epidemiol 2011; 40:1382-400.. For adolescents of ages 17 years and below, the variables leisure (recreational activities) and transportation (active commuting) were evaluated and categorized as follows: does not meet the recommendation (< 420 min/week) and meets the recommendation (≥ 420 min/week). For adolescents of ages 18 and 19 years, these variables were categorized as: does not meet the recommendation (< 150 min/week) and meets the recommendation (≥ 150 min/week). These recommendations were set according to World Health Organization Physical Activity Guidelines²²22. World Health Organization. Global recommendations on physical activity for health. Geneva: World Health Organization; 2010..

The intra-municipal Human Development Index (HDI) was obtained from the United Nations Development Program Atlas for Brazil ²³23. Programa das Nações Unidas para o Desenvolvimento; Instituto de Pesquisa Econômica Aplicada; Fundação João Pinheiro. Atlas de desenvolvimento humano do Brasil de 2013. http://www.atlasbrasil.org.br/2013/ (acessado em 11/Jun/2018).
http://www.atlasbrasil.org.br/2013/... , which addresses three dimensions: income, longevity, and education. The intra-municipal HDI uses intra-municipal data to estimate the HDI for human development units such as groups of census tracts with homogeneous urban, social, and economic features. Given the wide range of HDI in the city of São Paulo, from 0.625 (medium) to 0.965 (very high), the intra-municipal HDI was treated as a continuous variable for adjustment, in order to attenuate the differences among city neighborhoods.

Study variables

Weight status

Weight and height data were self-reported. Weight was recorded in kilograms or grams. Height was recorded in meters or centimeters. The BMI of each participant was calculated using the standard formula, which is weight in kilograms (kg) divided by height squared in meters (m²), in order to classify weight status according to the World Health Organization (WHO) percentiles for age and sex. Adolescents were classified as not overweight (< percentile 85^th) and as overweight or obese (≥ percentile 85^th) ²⁴24. de Onis M. Development of a WHO growth reference for school-aged children and adolescents. Bull World Health Organ 2007; 85:660-7.. The BMI estimated from self-reported measures of weight and height was validated previously in this population, with high sensitivity (91.7%) and specificity (97.7%) ²⁵25. Carvalho AM, Piovezan LG, Selem SS, Fisberg RM, Marchioni DM. Validation and calibration of self-reported weight and height from individuals in the city of Sao Paulo. Rev Bras Epidemiol 2014; 17:735-46..

Local food environment and households

The geocodes of the participants’ residence addresses were generated using the program Google Earth Pro version 7.1, operated by the geographic coordinate system (latitude/longitude coordinate system (SRC - WGS84). The geocodes were validated by geographic operation in the QGIS version 2.16.1 (https://qgis.org/en/site/) program, based on the overlapping of the geographic coordinates obtained with the census tracts in 2015 ISA-Capital. The map was produced in the projected coordinate system reference UTM SIRGAS 2000/23 S.

Locations of food establishments were obtained from the Municipal Registry of Health Surveillance, with street markets and other whole food establishments, being exceptions. This information was obtained from the Municipal Department of Labor and Entrepreneurship available on GeoSampa website ²⁶26. Prefeitura de São Paulo. Mapa digital da cidade de São Paulo - GeoSampa. http://geosampa.prefeitura.sp.gov.br/PaginasPublicas/_SBC.aspx (accessed on 19/May/2019).
http://geosampa.prefeitura.sp.gov.br/Pag... .

Food establishments were classified, considering Brazilian conditions into five groups: (i) fast food restaurants (e.g., McDonald’s, Bob’s, Burger King, Pizza Hut, and Habib’s [Brazilian-Arabic fast food chain]); (ii) markets, supermarkets and grocery stores (retail and wholesale stores); (iii) bakeries and cafeterias; (iv) restaurants (did not include fast food restaurants); (v) pizzerias; (vi) street markets and whole food markets (i.e., establishments selling natural food sources, such as fruits, vegetables, meats, and cereals/grains). Initial screening was performed based on the establishment’s name. In cases where name-based classification could not be performed, an additional search using the National Registry of Legal Entities (acronym in Portuguese CNPJ) was conducted. When more than one activity had taken place, the broader National Economy Activity Classification was considered.

In order to determine the proximity of these establishments to the adolescents’ homes, areas of influence (buffers) with radii of 500 meters were created. The density of the establishments was counted in the buffer. A buffer of 500m is equivalent to a 10-minute walk ²⁷27. Hino AAF, Reis RS, Florindo AA. Ambiente construído e atividade física: uma breve revisão dos métodos de avaliação. Rev Bras Cineantropom Desempenho Hum 2010; 12:387-94.. These estimates were performed using the program QGIS version 2.16.1.

Data analyses

Descriptive statistics for lifestyle and socioeconomic variables were obtained as relative and absolute frequencies. Pearson’s chi-square test was used to determine the differences between weight status (i.e., being overweight and not being overweight) and lifestyle and socioeconomic variables. The distribution of adolescents, based on weight status and the number of food establishments within a buffer of 500m, was given by absolute and relative frequencies and the differences were calculated using Pearson’s chi-square test.

Multilevel logistic regression models with fixed effects were used to determine the chances of being overweight and the presence of food establishments within a buffer of 500m to the adolescent’s home. Presence of food establishments (yes/no) was the independent variable, and weight status was the dependent variable (not being and being overweight). Different models were used for each food establishment category. The models considered two levels: (1) adolescents participating in the study, and (2) living area (census tract). The census tract was included in the analysis as a second level variable, in order to account for the study design, considering the intra-class correlation among participants living in the same area. Modeling was performed in two steps. For model 1, the covariates were sex and living area, while for model 2, the covariates were sex, race, violence in the neighborhood, years of residence in the same house, physical activity, and the intra-municipal HDI (second level variable). Selection of co-variates was based on the literature or when p-value was < 0.20 in the univariate analysis. Hausman test was used to select between the random and the fixed effects models. Results were presented as odds ratios (OR) and 95% confidence intervals (95%CI). All analyses were performed using Stata software version 13.0 (https://www.stata.com) with a significance at 5% (p < 0.05) for the tests performed.

Results

Descriptive analyses of the lifestyle and the socioeconomic variables according to weight status are presented in Table 1. The data distribution of adolescents was such that 51.4% were aged 12-15 years, 51.4% were male, 56.9% were non-white, and 58.8% had a family per capita income of ≤ 1 minimum wage (equivalent to USD 236.00/month, according to 2015 currency conversation rate). In total, 54.9% of the participants reported living in a safe area and 64.5% had been living in the same house for more than five years. The mean of the inter-municipal HDI of the adolescents’ living area was 0.755 (i.e., average HDI). Regarding the physical activity from leisure and transportation, 67.7% of the participants did not meet WHO recommendations. Of the 504 adolescents, 29.6% were classified as being overweight or obese, but no significant differences were found between the variables presented in Table 1.

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Table 1
Descriptive analysis of adolescents living in the city of São Paulo, Brazil, according to weight status. Health Survey in São Paulo City (ISA-Capital), 2015.

In total, São Paulo had 20,679 food establishments registered in the Municipal Registry of Sanitary Surveillance and Municipal Department of Labor and Entrepreneurship. Among these, 2,064 were in the 500m buffer zone. Of the total food establishments, 57.1% were restaurants, 18.8% were markets, supermarkets, and grocery stores, 4.5% were street markets and whole food markets, 4.3% were bakeries and cafeterias, 3.5% were fast food restaurants, 2.8% were pizzerias, and 9% were not classified. In this 9% (1,880 establishments), only 972 were in the buffer map. After a manual search of the 972 venues, only 63 (3.1%) remained unclassified.

Figure 1 presents the types of food establishments in the buffer zone. The distribution of weight status according to the presence of food establishments is presented in Table 2. There was no significant difference between the weight status and the presence of food establishments. Most of the adolescents did not have residences near fast food restaurants (93.9%), bakeries and cafeterias (89.5%), and pizzerias (76.8%). However, 85.5% of the adolescents had markets, supermarkets and grocery stores, 75.6% had restaurants, and 50.6% had street markets and whole food markets closer to their residences. Adolescents were questioned about where they had their meals, and 72 (14.3%) of them reported consuming at least one meal at some type of restaurant.

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Figure 1
Spatial distribution of the types of food establishments in the buffer zone. Health Survey in São Paulo City (ISA-Capital), São Paulo, Brazil, 2015.

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Table 2
Presence of food sales establishments around the residence of adolescents living in the city of São Paulo, Brazil. Health Survey in São Paulo City (ISA-Capital), 2015.

Multilevel logistic regression models are presented in Table 3. The presence of fast food restaurants within the 500m buffer zone was positively associated with being overweight (OR = 2.53, 95%CI: 1.02-6.27, p = 0.04), when adjusted for covariates in model 2. For other food venues, no significant associations were found.

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Table 3
Odds ratios (OR) for associations between being overweight/obese and the presence of food establishments. Health Survey in São Paulo City (ISA-Capital), São Paulo, Brazil, 2015.

Discussion

This study showed that the presence of fast food restaurants in a 500m buffer zone near residential areas was positively associated with overweight/obesity in a population sample of adolescents from the city of São Paulo. Several studies on adult populations have demonstrated positive associations between exposure to fast foods outlets and weight gain ²⁸28. Burgoine T, Forouhi NG, Griffin SJ, Brage S, Wareham NJ, Monsivais P. Does neighborhood fast-food outlet exposure amplify inequalities in diet and obesity? A cross-sectional study. Am J Clin Nutr 2016; 103:1540-7.^,²⁹29. Polsky JY, Moineddin R, Dunn JR, Glazier RH, Booth GL. Absolute and relative densities of fast-food versus other restaurants in relation to weight status: does restaurant mix matter? Prev Med 2016; 82:28-34.^,³⁰30. Burgoine T, Forouhi NG, Griffin SJ, Wareham NJ, Monsivais P. Associations between exposure to takeaway food outlets, takeaway food consumption, and body weight in Cambridgeshire, UK: population based, cross sectional study. BMJ 2014; 348:g1464.^,³¹31. Spence JC, Cutumisu N, Edwards J, Raine KD, Smoyer-Tomic K. Relation between local food environments and obesity among adults. BMC Public Health 2009; 9:192.. There is a paucity of studies on children and adolescents in this context, but research has rapidly been increasing in Brazil ¹⁵15. Assis MM, Leite MA, Carmo ASD, Andrade ACS, Pessoa MC, Netto MP, et al. Food environment, social deprivation and obesity among students from Brazilian public schools. Public Health Nutr 2019; 22:1920-7.^,¹⁶16. Vedovato GM, Trude AC, Kharmats AY, Martins PA. Degree of food processing of household acquisition patterns in a Brazilian urban area is related to food buying preferences and perceived food environment. Appetite 2015; 87:296-302.^,³²32. Correa EN, Retondario A, Alves MA, Bricarello LP, Rockenbach G, Hinnig PF, et al. Utilization of food outlets and intake of minimally processed and ultra-processed foods among 7 to 14-year-old schoolchildren. A cross-sectional study. São Paulo Med J 2018; 136:200-7.. However, the methodology used to assess food environment varies between studies. Surveys performed in Juiz de Fora and Florianópolis, Santa Catarina State, used a school-based sample population to investigate the environment near an adolescent’s residence. Both studies detected associations between food environment characteristics and weight status. In Juiz de Fora, an inverse association was found between the density of supermarkets and hypermarkets and the prevalence of obesity ¹⁵15. Assis MM, Leite MA, Carmo ASD, Andrade ACS, Pessoa MC, Netto MP, et al. Food environment, social deprivation and obesity among students from Brazilian public schools. Public Health Nutr 2019; 22:1920-7., while in Florianópolis, adolescents’ families that used “public markets and greengrocers” and had restaurants near residences presented higher likelihoods to be overweight or obese ³²32. Correa EN, Retondario A, Alves MA, Bricarello LP, Rockenbach G, Hinnig PF, et al. Utilization of food outlets and intake of minimally processed and ultra-processed foods among 7 to 14-year-old schoolchildren. A cross-sectional study. São Paulo Med J 2018; 136:200-7.. A national school-based survey investigated the food environment in schools and found that schools that offered meals prepared on the school premises had lesser obesity rates for students ³³33. Gonçalves VS, Duarte EC, Dutra ES, Barufaldi LA, Carvalho KM. Characteristics of the school food environment associated with hypertension and obesity in Brazilian adolescents: a multilevel analysis of the Study of Cardiovascular Risks in Adolescents (ERICA). Public Health Nutr 2019; 22:2625-34.. The methodology used to classify food environment exposure varies widely. The present study, similar to studies performed by Corrêa at al. ³²32. Correa EN, Retondario A, Alves MA, Bricarello LP, Rockenbach G, Hinnig PF, et al. Utilization of food outlets and intake of minimally processed and ultra-processed foods among 7 to 14-year-old schoolchildren. A cross-sectional study. São Paulo Med J 2018; 136:200-7. and Vedovato et al. ¹⁶16. Vedovato GM, Trude AC, Kharmats AY, Martins PA. Degree of food processing of household acquisition patterns in a Brazilian urban area is related to food buying preferences and perceived food environment. Appetite 2015; 87:296-302., used food shopping venues to classify food environment exposure, while some studies have classified the establishments based on the foods sold predominantly ¹⁵15. Assis MM, Leite MA, Carmo ASD, Andrade ACS, Pessoa MC, Netto MP, et al. Food environment, social deprivation and obesity among students from Brazilian public schools. Public Health Nutr 2019; 22:1920-7.. These differences, in addition to the particularities in each place of study, illustrate the complexity of characterizing the food environment and may explain the diverse findings.

Although there is no consensus on the definition of fast food, evidence from a systematic review ³⁴34. Bahadoran Z, Mirmiran P, Azizi F. Fast food pattern and cardiometabolic disorders: a review of current studies. Health Promot Perspect 2016; 5:231-40. (p. 231) defined fast food as “easily prepared, processed food served in snack bars and restaurants as a quick meal or to be taken away”. Industrial foods such as canned foods or snacks may also be considered as fast food ³⁴34. Bahadoran Z, Mirmiran P, Azizi F. Fast food pattern and cardiometabolic disorders: a review of current studies. Health Promot Perspect 2016; 5:231-40.. These types of foods are sources of energy, solid fats, added sugars, and sodium, and may be associated with unhealthy weight gain. Restaurants that sell these types of foods may contribute to the settings of the so-called obesogenic environment ³⁵35. Patel O, Shahulhameed S, Shivashankar R, Tayyab M, Rahman A, Prabhakaran D, et al. Association between full service and fast food restaurant density, dietary intake and overweight/obesity among adults in Delhi, India. BMC Public Health 2017; 18:36.^,³⁶36. Duffey KJ, Gordon-Larsen P, Jacobs Jr. DR, Williams OD, Popkin BM. Differential associations of fast food and restaurant food consumption with 3-y change in body mass index: the Coronary Artery Risk Development in Young Adults Study. Am J Clin Nutr 2007; 85:201-8.. A study on the association between fast food consumption and diet quality in more than 5,000 individuals in the United States, found that fast food consumption and neighborhood fast food exposure were associated with a poorer diet (e.g., fats and oils, high-fat and processed meats, fried potatoes, savory snacks, and sweets) ³⁷37. Moore LV, Diez Roux AV, Nettleton JA, Jacobs DR, Franco M. Fast-food consumption, diet quality, and neighborhood exposure to fast food: the multi-ethnic study of atherosclerosis. Am J Epidemiol 2009; 170:29-36.. Moreover, another study on a population in India, has demonstrated that residing in areas closer to fast food restaurants was associated with decreased consumption of meat, fish, eggs, fruits ³⁵35. Patel O, Shahulhameed S, Shivashankar R, Tayyab M, Rahman A, Prabhakaran D, et al. Association between full service and fast food restaurant density, dietary intake and overweight/obesity among adults in Delhi, India. BMC Public Health 2017; 18:36., and other low-energy, nutrient-dense food sources.

Although most of the studies were conducted on adults, adolescents and young adults are the primary fast food consumers ³⁸38. Bauer KW, Larson NI, Nelson MC, Story M, Neumark-Sztainer D. Fast food intake among adolescents: secular and longitudinal trends from 1999 to 2004. Prev Med 2009; 48:284-7., which may explain the observed association. Low-cost is one of the key determinants of fast food consumption in this population ³⁹39. Janssen HG, Davies IG, Richardson LD, Stevenson L. Determinants of takeaway and fast food consumption: a narrative review. Nutr Res Rev 2018; 31:16-34.. Systematic review found that foods with high energy and low nutrients, i.e., of poorer diet quality, are associated with a reduced price ⁴⁰40. Darmon N, Drewnowski A. Contribution of food prices and diet cost to socioeconomic disparities in diet quality and health: a systematic review and analysis. Nutr Rev 2015; 73:643-60.. Moreover, the preference for choosing fast food restaurants may be influenced by the time spent with family and peers, lack of culinary skills, and easy access to such food outlets ³⁹39. Janssen HG, Davies IG, Richardson LD, Stevenson L. Determinants of takeaway and fast food consumption: a narrative review. Nutr Res Rev 2018; 31:16-34.^,⁴¹41. Abraham S, Martinez M, Salas G, Smith S. College student's perception of risk factors related to fast food consumption and their eating habits. Journal of Nutrition and Human Health 2018; 2:18-21..

A cross-sectional study conducted in 36 countries, including Brazil, observed a higher prevalence of eating in fast food restaurants ⁴²42. Braithwaite I, Stewart AW, Hancox RJ, Beasley R, Murphy R, Mitchell EA, et al. Fast-food consumption and body mass index in children and adolescents: an international cross-sectional study. BMJ Open 2014; 4:e005813.. Among adolescents, 38.7% reported eating at these establishments once or twice a week and 12.6%, three or more times per week ⁴²42. Braithwaite I, Stewart AW, Hancox RJ, Beasley R, Murphy R, Mitchell EA, et al. Fast-food consumption and body mass index in children and adolescents: an international cross-sectional study. BMJ Open 2014; 4:e005813.. Although in Brazil most meals are prepared in a family environment, eating away-from-home has increased and so have the food expenses ⁴³43. Bezerra IN, Moreira TM, Cavalcante JB, Souza AM, Sichieri R. Food consumed outside the home in Brazil according to places of purchase. Rev Saúde Pública 2017; 51:15.. According to Bezerra et al. ⁴⁴44. Bezerra IN, Souza AM, Pereira RA, Sichieri R. Consumption of foods away from home in Brazil. Rev Saúde Pública 2013; 47 Suppl 1:200S-11S., young adults living in urban areas in the South and Southeast of Brazil are consuming more foods away-from-home daily, with a higher frequency at restaurants. Moreover, the consumption of fruit and vegetables were lower, with a decrease in the frequency of purchasing at markets ⁴³43. Bezerra IN, Moreira TM, Cavalcante JB, Souza AM, Sichieri R. Food consumed outside the home in Brazil according to places of purchase. Rev Saúde Pública 2017; 51:15..

In the present study, no associations were observed between being overweight/obese and other food establishments (with an exception of fast food restaurants) close to the adolescents’ home. Markets and supermarkets are known to commercialize both protective foods such as fruits and vegetables, and risk foods that are associated with weight gain, such as soft drinks and processed meats ⁴⁵45. Rogus S, Athens J, Cantor J, Elbel B. Measuring micro-level effects of a new supermarket: do residents within 0.5 mile have improved dietary behaviors? J Acad Nutr Diet 2018; 118:1037-46.. Since we did not assess the establishment where foods consumed were bought from, this can justify our null findings. Although some studies reported associations between healthy eating and access to supermarkets ⁴⁶46. Morland KB, Evenson KR. Obesity prevalence and the local food environment. Health Place 2009; 15:491-5.^,⁴⁷47. Rose D, Richards R. Food store access and household fruit and vegetable use among participants in the US Food Stamp Program. Public Health Nutr 2004; 7:1081-8.^,⁴⁸48. Costa JC, Claro RM, Martins AP, Levy RB. Food purchasing sites. Repercussions for healthy eating. Appetite 2013; 70:99-103., other studies conducted in Brazil showed that foods from supermarkets present low nutrition quality and are major sources of daily caloric intake, representing 49% of the total energy intake ⁴³43. Bezerra IN, Moreira TM, Cavalcante JB, Souza AM, Sichieri R. Food consumed outside the home in Brazil according to places of purchase. Rev Saúde Pública 2017; 51:15.^,⁴⁸48. Costa JC, Claro RM, Martins AP, Levy RB. Food purchasing sites. Repercussions for healthy eating. Appetite 2013; 70:99-103..

Despite the null association observed with pizzerias, we chose to categorize this type of establishment as a single category because of its relevance to the State of São Paulo. According to a study performed by a food service consultancy, the State of São Paulo is responsible for the purchase of 53% of the 800,000 pizzas sold daily in Brazil ⁴⁹49. ECD. Pizzarias. https://www.ecdfoodservice.com.br/midia/pizzarias/ (accessed on 19/May/2019).
https://www.ecdfoodservice.com.br/midia/... .

Although most of the adolescents included in this study lived near street markets, they did not prefer buying foods from these public spaces. They choose to buy industrialized rather than in natura foods ⁵⁰50. Nogueira LR, Fontanelli MM, Aguiar BS, Failla MA, Florindo AA, Barrozo LV, et al. Access to street markets and consumption of fruits and vegetables by adolescents living in Sao Paulo, Brazil. Int J Environ Res Public Health 2018; 15(3). pii: E517.^,⁵¹51. Cowburn G, Matthews A, Doherty A, Hamilton A, Kelly P, Williams J, et al. Exploring the opportunities for food and drink purchasing and consumption by teenagers during their journeys between home and school: a feasibility study using a novel method. Public Health Nutr 2016; 19:93-103.^,⁵²52. Engler-Stringer R, Schaefer J, Ridalls T. An examination of the roles played by early adolescent children in interactions with their local food environment. Can J Public Health 2016; 107 Suppl 1:5296.^,⁵³53. Hill L, Casswell S, Maskill C, Jones S, Wyllie A. Fruit and vegetables as adolescent food choices in New Zealand. Health Promot Int 1998; 13:55-65.. The same may apply to other types of non-fast food restaurants. As shown by Bezerra et al. ⁴³43. Bezerra IN, Moreira TM, Cavalcante JB, Souza AM, Sichieri R. Food consumed outside the home in Brazil according to places of purchase. Rev Saúde Pública 2017; 51:15., individuals who eat at restaurants usually have a better education and income status. The adolescent phase of life is characterized by increased independence from their parents and family, where they begin to make their own choices, including what to eat ⁵⁴54. Laska MN, Murray DM, Lytle LA, Harnack LJ. Longitudinal associations between key dietary behaviors and weight gain over time: transitions through the adolescent years. Obesity (Silver Spring) 2012; 20:118-25.^,⁵⁵55. Haines J, Rifas-Shiman SL, Horton NJ, Kleinman K, Bauer KW, Davison KK, et al. Family functioning and quality of parent-adolescent relationship: cross-sectional associations with adolescent weight-related behaviors and weight status. Int J Behav Nutr Phys Act 2016; 13:68.. Therefore, children and adolescents should be targeted in obesity prevention programs ⁵⁶56. Leme ACB, Philippi ST. The "Healthy Habits, Healthy Girls" randomized controlled trial for girls: study design, protocol, and baseline results. Cad Saúde Pública 2015; 311381-94., including nutrition component food planning and food preparations in families ⁵⁷57. Haines J, Douglas S, Mirotta JA, O'Kane C, Breau R, Walton K, et al. Guelph Family Health Study: pilot study of a home-based obesity prevention intervention. Can J Public Health 2018; 109:549-60.^,⁵⁸58. Leme ACB, Philippi ST. Home food availability, parents'/caregivers' support, and family meals influence on dietary servings of low-income urban adolescent girls from Brazil. Nutrire 2017; 42:30..

It is worth mentioning that, in Nutritional Epidemiology, the lack of significant results is insufficient to confirm the nonexistence of an association ⁵⁹59. Willett W. Nutritional epidemiology. 3rd Ed. Oxford/NewYork: Oxford University Press; 2013.. It is possible that the lack of an association between overweight/obesity and other types of establishments could be due to insufficient number of adolescents with investigated establishments within the 500m buffer zone. Another possibility could be that the alterations in nutritional status were not yet detectable by BMI classification when the study was performed, and adolescents may be gaining weight but might develop detectable changes in BMI in the future. Finally, possible unmeasured confounding variables could also have contributed to the lack of association observed. The impossibility of using data related to school and workplace food environment is a limitation, considering that 76.2% and 22.3% of the adolescents were studying and working, respectively (data not shown). As a result, adolescents may consume foods sold by food establishments beyond the vicinity of their homes, which might explain the lack of association with other establishments ⁶⁰60. Mackenbach JD, Charreire H, Glonti K, Bárdos H, Rutter H, Compernolle S, et al. Exploring the relation of spatial access to fast food outlets with body weight: a mediation analysis. Environ Behav 2019; 51:401-30.. Therefore, the use of a 500m buffer near adolescents’ residence may not be the best approach to assess their food environment. Tests using buffers of 1,000 and 1,500m have been conducted, but no associations were observed between the local food environment and the weight status. These results corroborate other studies that show the importance of proximity to spaces close to residential area, especially in the city of São Paulo ⁵⁰50. Nogueira LR, Fontanelli MM, Aguiar BS, Failla MA, Florindo AA, Barrozo LV, et al. Access to street markets and consumption of fruits and vegetables by adolescents living in Sao Paulo, Brazil. Int J Environ Res Public Health 2018; 15(3). pii: E517.^,⁶¹61. Florindo AA, Barrozo LV, Cabral-Miranda W, Rodrigues EQ, Turrell G, Goldbaum M, et al. Public open spaces and leisure-time walking in Brazilian adults. Int J Environ Res Public Health 2017; 14:553.^,⁶²62. Wrigley N, Warm D, Margetts B. Deprivation, diet, and food-retail access: findings from the Leeds 'Food Deserts' Study. Environ Plan A 2003; 35:151-88..

In addition, the lack of subjective measurements to identify food environments, such as perception of the availability, use of these establishments, or current places to purchase food items, may have attenuated the associations ⁶⁰60. Mackenbach JD, Charreire H, Glonti K, Bárdos H, Rutter H, Compernolle S, et al. Exploring the relation of spatial access to fast food outlets with body weight: a mediation analysis. Environ Behav 2019; 51:401-30.. In order to address this issue, the variable “perception of violence in the living area” was included in the multiple model, because it may be used as a proxy measurement to the use of local living space. Also, the variable “length of residence in the same house” was added, since it can reveal the individual’s knowledge of the territory.

Given the nature of this study design, it is not possible to infer a cause and effect relationship. Individuals may either seek to live closer to certain types of establishments or food establishments may be set up in certain locations due to the population profile of the location. Moreover, data on street food and other informal food trades, which are not registered in the Sanitary Surveillance, is unavailable. Previous research studies have found that these establishments are used by 4.6% of Brazilians ⁴³43. Bezerra IN, Moreira TM, Cavalcante JB, Souza AM, Sichieri R. Food consumed outside the home in Brazil according to places of purchase. Rev Saúde Pública 2017; 51:15..

Finally, it is not possible to conduct a qualitative analysis of the food establishments listed. The use of a public list may not reflect the reality, because the list might be outdated and, considering the dynamics of the city of São Paulo, many establishments may have been opened or closed in a short period of time. However, using data from establishments in São Paulo that were generated in the year of survey (2015-2016) was possible. Thus, temporal compatibility is a strength of the present study. The combined use of establishments considered healthy and unhealthy, according to the literature, is another strength of this study. Moreover, this study enabled the investigation of complex associations between youth overweight and local food environment in the city of São Paulo in Brazil, considered a low- to middle-income country where such studies are still scarce.

Conclusion

The presence of fast food restaurants was positively associated with excess body weight in adolescents in the city of São Paulo. Results suggest the need to intensify food and nutrition policies, development of culinary skills, and the reduction in prices of healthy foods to facilitate access to these foods, so that adolescents will have options in locations to socialize with friends and family.

Future studies in Brazil should verify the associations between weight status and food environment, especially fast food restaurants. This will enable comparisons between countries and will offer future directions to prevent obesity and other chronic non-communicable diseases earlier in life.

Acknowledgments

We would like to thank all ISA-Capital staff and the researchers of the Dietary Assessment Group (GAC - Grupo de Pesquisa de Avaliação do Consumo Alimentar). This work was supported by the São Paulo Municipal Health Department (SMS-SP, grant n. 2013-0.235.936-0), São Paulo Research Foundation (FAPESP, grant n. 2012/22113-9), and Brazilian National Research Council (CNPq, grant n. 472873/2012-1, 402674/2016-2); Moisés Goldbaum (grant n. 305295/2015-2) and Regina Mara Fisberg (grant n. 301597/2017-0) are productivity grant of the CNPq.

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Burgoine T, Forouhi NG, Griffin SJ, Wareham NJ, Monsivais P. Associations between exposure to takeaway food outlets, takeaway food consumption, and body weight in Cambridgeshire, UK: population based, cross sectional study. BMJ 2014; 348:g1464.
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Spence JC, Cutumisu N, Edwards J, Raine KD, Smoyer-Tomic K. Relation between local food environments and obesity among adults. BMC Public Health 2009; 9:192.
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Correa EN, Retondario A, Alves MA, Bricarello LP, Rockenbach G, Hinnig PF, et al. Utilization of food outlets and intake of minimally processed and ultra-processed foods among 7 to 14-year-old schoolchildren. A cross-sectional study. São Paulo Med J 2018; 136:200-7.
³³
Gonçalves VS, Duarte EC, Dutra ES, Barufaldi LA, Carvalho KM. Characteristics of the school food environment associated with hypertension and obesity in Brazilian adolescents: a multilevel analysis of the Study of Cardiovascular Risks in Adolescents (ERICA). Public Health Nutr 2019; 22:2625-34.
³⁴
Bahadoran Z, Mirmiran P, Azizi F. Fast food pattern and cardiometabolic disorders: a review of current studies. Health Promot Perspect 2016; 5:231-40.
³⁵
Patel O, Shahulhameed S, Shivashankar R, Tayyab M, Rahman A, Prabhakaran D, et al. Association between full service and fast food restaurant density, dietary intake and overweight/obesity among adults in Delhi, India. BMC Public Health 2017; 18:36.
³⁶
Duffey KJ, Gordon-Larsen P, Jacobs Jr. DR, Williams OD, Popkin BM. Differential associations of fast food and restaurant food consumption with 3-y change in body mass index: the Coronary Artery Risk Development in Young Adults Study. Am J Clin Nutr 2007; 85:201-8.
³⁷
Moore LV, Diez Roux AV, Nettleton JA, Jacobs DR, Franco M. Fast-food consumption, diet quality, and neighborhood exposure to fast food: the multi-ethnic study of atherosclerosis. Am J Epidemiol 2009; 170:29-36.
³⁸
Bauer KW, Larson NI, Nelson MC, Story M, Neumark-Sztainer D. Fast food intake among adolescents: secular and longitudinal trends from 1999 to 2004. Prev Med 2009; 48:284-7.
³⁹
Janssen HG, Davies IG, Richardson LD, Stevenson L. Determinants of takeaway and fast food consumption: a narrative review. Nutr Res Rev 2018; 31:16-34.
⁴⁰
Darmon N, Drewnowski A. Contribution of food prices and diet cost to socioeconomic disparities in diet quality and health: a systematic review and analysis. Nutr Rev 2015; 73:643-60.
⁴¹
Abraham S, Martinez M, Salas G, Smith S. College student's perception of risk factors related to fast food consumption and their eating habits. Journal of Nutrition and Human Health 2018; 2:18-21.
⁴²
Braithwaite I, Stewart AW, Hancox RJ, Beasley R, Murphy R, Mitchell EA, et al. Fast-food consumption and body mass index in children and adolescents: an international cross-sectional study. BMJ Open 2014; 4:e005813.
⁴³
Bezerra IN, Moreira TM, Cavalcante JB, Souza AM, Sichieri R. Food consumed outside the home in Brazil according to places of purchase. Rev Saúde Pública 2017; 51:15.
⁴⁴
Bezerra IN, Souza AM, Pereira RA, Sichieri R. Consumption of foods away from home in Brazil. Rev Saúde Pública 2013; 47 Suppl 1:200S-11S.
⁴⁵
Rogus S, Athens J, Cantor J, Elbel B. Measuring micro-level effects of a new supermarket: do residents within 0.5 mile have improved dietary behaviors? J Acad Nutr Diet 2018; 118:1037-46.
⁴⁶
Morland KB, Evenson KR. Obesity prevalence and the local food environment. Health Place 2009; 15:491-5.
⁴⁷
Rose D, Richards R. Food store access and household fruit and vegetable use among participants in the US Food Stamp Program. Public Health Nutr 2004; 7:1081-8.
⁴⁸
Costa JC, Claro RM, Martins AP, Levy RB. Food purchasing sites. Repercussions for healthy eating. Appetite 2013; 70:99-103.
⁴⁹
ECD. Pizzarias. https://www.ecdfoodservice.com.br/midia/pizzarias/ (accessed on 19/May/2019).
» https://www.ecdfoodservice.com.br/midia/pizzarias/
⁵⁰
Nogueira LR, Fontanelli MM, Aguiar BS, Failla MA, Florindo AA, Barrozo LV, et al. Access to street markets and consumption of fruits and vegetables by adolescents living in Sao Paulo, Brazil. Int J Environ Res Public Health 2018; 15(3). pii: E517.
⁵¹
Cowburn G, Matthews A, Doherty A, Hamilton A, Kelly P, Williams J, et al. Exploring the opportunities for food and drink purchasing and consumption by teenagers during their journeys between home and school: a feasibility study using a novel method. Public Health Nutr 2016; 19:93-103.
⁵²
Engler-Stringer R, Schaefer J, Ridalls T. An examination of the roles played by early adolescent children in interactions with their local food environment. Can J Public Health 2016; 107 Suppl 1:5296.
⁵³
Hill L, Casswell S, Maskill C, Jones S, Wyllie A. Fruit and vegetables as adolescent food choices in New Zealand. Health Promot Int 1998; 13:55-65.
⁵⁴
Laska MN, Murray DM, Lytle LA, Harnack LJ. Longitudinal associations between key dietary behaviors and weight gain over time: transitions through the adolescent years. Obesity (Silver Spring) 2012; 20:118-25.
⁵⁵
Haines J, Rifas-Shiman SL, Horton NJ, Kleinman K, Bauer KW, Davison KK, et al. Family functioning and quality of parent-adolescent relationship: cross-sectional associations with adolescent weight-related behaviors and weight status. Int J Behav Nutr Phys Act 2016; 13:68.
⁵⁶
Leme ACB, Philippi ST. The "Healthy Habits, Healthy Girls" randomized controlled trial for girls: study design, protocol, and baseline results. Cad Saúde Pública 2015; 311381-94.
⁵⁷
Haines J, Douglas S, Mirotta JA, O'Kane C, Breau R, Walton K, et al. Guelph Family Health Study: pilot study of a home-based obesity prevention intervention. Can J Public Health 2018; 109:549-60.
⁵⁸
Leme ACB, Philippi ST. Home food availability, parents'/caregivers' support, and family meals influence on dietary servings of low-income urban adolescent girls from Brazil. Nutrire 2017; 42:30.
⁵⁹
Willett W. Nutritional epidemiology. 3rd Ed. Oxford/NewYork: Oxford University Press; 2013.
⁶⁰
Mackenbach JD, Charreire H, Glonti K, Bárdos H, Rutter H, Compernolle S, et al. Exploring the relation of spatial access to fast food outlets with body weight: a mediation analysis. Environ Behav 2019; 51:401-30.
⁶¹
Florindo AA, Barrozo LV, Cabral-Miranda W, Rodrigues EQ, Turrell G, Goldbaum M, et al. Public open spaces and leisure-time walking in Brazilian adults. Int J Environ Res Public Health 2017; 14:553.
⁶²
Wrigley N, Warm D, Margetts B. Deprivation, diet, and food-retail access: findings from the Leeds 'Food Deserts' Study. Environ Plan A 2003; 35:151-88.

Publication Dates

Publication in this collection
21 Feb 2020
Date of issue
2020

History

Received
14 Mar 2019
Reviewed
25 June 2019
Accepted
02 Aug 2019

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

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[47] ⁴⁷
Rose D, Richards R. Food store access and household fruit and vegetable use among participants in the US Food Stamp Program. Public Health Nutr 2004; 7:1081-8.

[48] ⁴⁸
Costa JC, Claro RM, Martins AP, Levy RB. Food purchasing sites. Repercussions for healthy eating. Appetite 2013; 70:99-103.

[49] ⁴⁹
ECD. Pizzarias. https://www.ecdfoodservice.com.br/midia/pizzarias/ (accessed on 19/May/2019).
» https://www.ecdfoodservice.com.br/midia/pizzarias/

[50] ⁵⁰
Nogueira LR, Fontanelli MM, Aguiar BS, Failla MA, Florindo AA, Barrozo LV, et al. Access to street markets and consumption of fruits and vegetables by adolescents living in Sao Paulo, Brazil. Int J Environ Res Public Health 2018; 15(3). pii: E517.

[51] ⁵¹
Cowburn G, Matthews A, Doherty A, Hamilton A, Kelly P, Williams J, et al. Exploring the opportunities for food and drink purchasing and consumption by teenagers during their journeys between home and school: a feasibility study using a novel method. Public Health Nutr 2016; 19:93-103.

[52] ⁵²
Engler-Stringer R, Schaefer J, Ridalls T. An examination of the roles played by early adolescent children in interactions with their local food environment. Can J Public Health 2016; 107 Suppl 1:5296.

[53] ⁵³
Hill L, Casswell S, Maskill C, Jones S, Wyllie A. Fruit and vegetables as adolescent food choices in New Zealand. Health Promot Int 1998; 13:55-65.

[54] ⁵⁴
Laska MN, Murray DM, Lytle LA, Harnack LJ. Longitudinal associations between key dietary behaviors and weight gain over time: transitions through the adolescent years. Obesity (Silver Spring) 2012; 20:118-25.

[55] ⁵⁵
Haines J, Rifas-Shiman SL, Horton NJ, Kleinman K, Bauer KW, Davison KK, et al. Family functioning and quality of parent-adolescent relationship: cross-sectional associations with adolescent weight-related behaviors and weight status. Int J Behav Nutr Phys Act 2016; 13:68.

[56] ⁵⁶
Leme ACB, Philippi ST. The "Healthy Habits, Healthy Girls" randomized controlled trial for girls: study design, protocol, and baseline results. Cad Saúde Pública 2015; 311381-94.

[57] ⁵⁷
Haines J, Douglas S, Mirotta JA, O'Kane C, Breau R, Walton K, et al. Guelph Family Health Study: pilot study of a home-based obesity prevention intervention. Can J Public Health 2018; 109:549-60.

[58] ⁵⁸
Leme ACB, Philippi ST. Home food availability, parents'/caregivers' support, and family meals influence on dietary servings of low-income urban adolescent girls from Brazil. Nutrire 2017; 42:30.

[59] ⁵⁹
Willett W. Nutritional epidemiology. 3rd Ed. Oxford/NewYork: Oxford University Press; 2013.

[60] ⁶⁰
Mackenbach JD, Charreire H, Glonti K, Bárdos H, Rutter H, Compernolle S, et al. Exploring the relation of spatial access to fast food outlets with body weight: a mediation analysis. Environ Behav 2019; 51:401-30.

[61] ⁶¹
Florindo AA, Barrozo LV, Cabral-Miranda W, Rodrigues EQ, Turrell G, Goldbaum M, et al. Public open spaces and leisure-time walking in Brazilian adults. Int J Environ Res Public Health 2017; 14:553.

[62] ⁶²
Wrigley N, Warm D, Margetts B. Deprivation, diet, and food-retail access: findings from the Leeds 'Food Deserts' Study. Environ Plan A 2003; 35:151-88.

Variables	Total population	Not overweight/Obese	Overweight/Obese	p-value
Variables	n (%)	n (%)	n (%)	p-value
Age (years, n = 504)				0.07
12-15	259 (51.4)	173 (66.8)	86 (33.2)
16-19	245 (48.6)	182 (74.3)	63 (25.7)
Sex (n = 504)				0.28
Male	259 (51.4)	188 (72.6)	71 (27.4)
Female	245 (48.6)	167 (68.2)	78 (31.8)
Race (n = 501)				0.50
White	216 (43.1)	156 (72.2)	60 (27.8)
Other races	285 (56.9)	198 (69.5)	87 (30.5)
Family income per capita (n = 480)				0.58
≤ 1 MW	282 (58.8)	194 (68.8)	88 (31.2)
> MW	119 (24.8)	85 (71.4)	34 (28.6)
No answer	79 (16.5)	59 (74.7)	20 (25.3)
Perception of violence in the living area (n = 499)				0.22
Safe	274 (54.9)	199 (72.6)	75 (27.4)
Violent	225 (45.1)	152 (67.6)	73 (32.4)
Length of residence at the house (n = 504)				0.07
≤ 5 years	179 (35.5)	135 (72.4)	44 (24.6)
> 5 years	325 (64.5)	220 (67.7)	105 (32.3)
Physical activity (n = 505)				0.43
Does not meet with the recommendations	342 (67.7)	244 (71.5)	97 (28.5)
Meets with the recommendations	163 (32.3)	111 (68.1)	52 (31.9)

Presence of establishments	Total		Not overweight/Obese		Overweight/Obese		p-value	Unadjusted OR	95%CI
Presence of establishments	n	%	n	%	n	%
Fast food restaurants
No	473	93.9	336	71.0	137	28.9	0.25	1.00	0.90-5.61
Yes	31	6.1	19	61.3	12	38.7		2.25
Markets, supermarkets and grocery stores
No	73	14.5	53	72.6	20	27.4	0.71	1.00	0.71-2.77
Yes	431	85.5	302	70.0	129	30.0		1.40
Bakeries and cafeterias
No	451	89.5	315	69.8	136	30.2	0.39	1.00	0.36-2.18
Yes	53	10.5	40	75.5	13	24.5		0.88
Restaurants
No	123	24.4	87	70.7	36	29.3	0.93	1.00	0.40-2.05
Yes	381	75.6	268	70.3	113	29.7		0.91
Pizzerias
No	387	76.8	270	69.8	117	30.2	0.55	1.00	0.61-1.95
Yes	117	23.2	85	72.6	32	27.4		1.09
Street markets and whole food markets
No	249	49.4	175	70.3	74	29.7	0.94	1.00	0.68-1.70
Yes	255	50.6	180	70.6	75	29.4		1.07

Presence of establishments	Model 1		Model 2
Presence of establishments	OR (95%CI)	p-value	OR (95%CI)	p-value
Fast food restaurants
No	1.00	0.08	1.00	0.04
Yes	2.23 (0.90-5.58)		2.53 (1.02-6.27)
Markets, supermarkets and grocery stores
No	1.00	0.31	1.00	0.28
Yes	1.42 (0.72-2.81)		1.45 (0.74-2.82)
Bakeries and cafeterias
No	1.00	0.28	1.00	0.98
Yes	0.41 (0.02-2.08)		0.99 (0.44-2.22)
Restaurants
No	1.00	0.65	1.00	0.51
Yes	1.13 (0.67-1.92)		1,19 (0,71-2,01)
Pizzerias
No	1.00	0.73	1.00	0.55
Yes	1.11 (0.62-1.99)		1.19 (0.67-2.14)
Street markets and whole food markets
No	1.00	0.68	1.00	0.49
Yes	1.10 (0.69-1.76)		1.18 (0.74-1.87)

Saúde Pública

Saúde Pública

Is the local food environment associated with excess body weight in adolescents in São Paulo, Brazil?

O ambiente alimentar local está associado ao excesso de peso em adolescentes em São Paulo, Brasil?

¿El ambiente alimentario local está asociado al exceso de peso en adolescentes en São Paulo, Brasil?

Abstracts

Introduction

Materials and methods

Study sample

Data collection and processing

Study variables

Weight status

Local food environment and households

Data analyses

Results

Discussion

Conclusion

Acknowledgments

References

Publication Dates

History