0243/2022 - Características associadas ao consumo de alimentos in natura ou minimamente processados e ultraprocessados por adolescentes em uma região metropolitana brasileira
Characteristics associated with the consumption of unprocessed or minimally processed and ultraprocessed foods by adolescents in a brazilian metropolitan region
Autor:
• Daiene Rosa Gomes - Gomes, D. R. - <daiene.gomes@ufob.edu.br>ORCID: https://orcid.org/0000-0002-1831-1259
Coautor(es):
• Edson Theodoro dos Santos-Neto - Santos-Neto, E.T - <edsontheodoro@uol.com.br>ORCID: https://orcid.org/0000-0002-7351-7719
• Danila Soares de Oliveira - Oliveira, D.S. - <danila.soares1917@gmail.com>
ORCID: https://orcid.org/0000-0003-1531-7425
• Mússio Pirajá Mattos - Mattos, M. P. - <mussio.mattos@ufob.edu.br>
ORCID: https://orcid.org/0000-0002-8792-5860
• Luciane Bresciani Salaroli - Salaroli, L. B. - <lucianebresciani@gmail.com>
ORCID: https://orcid.org/0000-0002-1881-0306
Resumo:
Este estudo transversal teve como objetivo analisar as características sociodemográficas e de estilo de vida associadas ao consumo de alimentos in natura ou minimamente processados e ultraprocessados (AUP) por adolescentes da Região Metropolitana da Grande Vitória - Espírito Santo, Brasil. Os dados foram obtidos entre 2016 e 2017. Adotou-se a regressão logística para a análise multivariada. Participaram do estudo 2285 adolescentes entre 15 e 19 anos. O maior consumo de alimentos minimamente processados foi associado ao trabalho remunerado do adolescente (OR=1,27; IC95%:1,04-1,56), a alta renda familiar (OR=1,5; IC95%=1,10-2,17) e a prática de atividade física (OR=1,9; IC95%=1,45-2,63). A cor da pele parda/preta (OR=1,3; IC95%=1,02-1,61) e o hábito de comer enquanto navega na internet (OR=1,4; IC95%=1,02-1,88) aumentaram as chances de consumir os AUP. Estar matriculados em escolas particulares e no terceiro/quarto ano do ensino médio reduziram em 41,7% e 37,2%, respectivamente, o consumo dos AUP. Conclui-se que o maior poder aquisitivo e a prática de atividade física influenciaram o alto consumo dos alimentos minimamente processados. Por outro lado, se declarar da cor da pele parda/preta e a utilização da internet ao comer aumentam as chances para a maior ingestão dos AUP.Palavras-chave:
Consumo de alimentos. Nutrição. Adolescentes. Fatores de risco. Estudos transversais.Abstract:
This cross-sectional study aimed to analyze the sociodemographic and lifestyle characteristics associated with the consumption of unprocessed or minimally processed and ultraprocessed foods (UPF) by adolescentsthe Metropolitan Region of Grande Vitória - Espírito Santo, Brazil. The data was obtained between 2016 and 2017. Logistic regression was used for the multivariate analysis. A total of 2285 adolescents between 15 and 19 years old participated in the study. The highest consumption of minimally processed foods was associated with the adolescent\'s paid work (OR=1.27; 95%CI:1.04-1.56), high family income (OR=1.5; 95%CI=1.10-2.17) and practice of physical activity (OR=1.9; 95%CI=1.45-2.63). The skin color brown/black (OR=1.3; 95%CI=1.02-1.61) and the habit of eating while surfing the internet (OR=1.4; 95%CI=1.02-1.88) increased the chances of consuming the UPF. Being enrolled in private schools and in the third/fourth year of high school reduced the consumption of the UPF by 41.7% and 37.2%, respectively. We conclude that high purchasing power and the practice of physical activity influence the higher consumption of minimally processed foods. On the other hand, being brown/black skinned and using the Internet while eating increased the chances of higher consumption of UPF.Keywords:
Food consumption. Nutrition. Adolescents. Risk factors. Cross-sectional studies.Conteúdo:
Acessar Revista no ScieloOutros idiomas:
Characteristics associated with the consumption of unprocessed or minimally processed and ultraprocessed foods by adolescents in a brazilian metropolitan region
Resumo (abstract):
This cross-sectional study aimed to analyze the sociodemographic and lifestyle characteristics associated with the consumption of unprocessed or minimally processed and ultraprocessed foods (UPF) by adolescentsthe Metropolitan Region of Grande Vitória - Espírito Santo, Brazil. The data was obtained between 2016 and 2017. Logistic regression was used for the multivariate analysis. A total of 2285 adolescents between 15 and 19 years old participated in the study. The highest consumption of minimally processed foods was associated with the adolescent\'s paid work (OR=1.27; 95%CI:1.04-1.56), high family income (OR=1.5; 95%CI=1.10-2.17) and practice of physical activity (OR=1.9; 95%CI=1.45-2.63). The skin color brown/black (OR=1.3; 95%CI=1.02-1.61) and the habit of eating while surfing the internet (OR=1.4; 95%CI=1.02-1.88) increased the chances of consuming the UPF. Being enrolled in private schools and in the third/fourth year of high school reduced the consumption of the UPF by 41.7% and 37.2%, respectively. We conclude that high purchasing power and the practice of physical activity influence the higher consumption of minimally processed foods. On the other hand, being brown/black skinned and using the Internet while eating increased the chances of higher consumption of UPF.Palavras-chave (keywords):
Food consumption. Nutrition. Adolescents. Risk factors. Cross-sectional studies.Ler versão inglês (english version)
Conteúdo (article):
Characteristics associated with the consumption of in natura or minimally processed and ultraprocessed foods in one Brazilian metropolitan regionABSTRACT
This cross-sectional study aimed to analyze the sociodemographic and lifestyle characteristics associated with the consumption of in natura or minimally processed and ultraprocessed foods (UPFs) by adolescents in the Metropolitan Region of Greater Vitória, in Espírito Santo, Brazil. The data were obtained between 2016 and 2017. Logistic regression was adopted for the multivariate analysis. A total of 2,285 adolescents aged between 15 and 19 participated in the study. Greater consumption of minimally processed foods was associated with the adolescent doing paid work (OR = 1.27; 95%CI = 1.04-1.56), a high family income (OR = 1.5; 95%CI = 1.10-2.17), and engagement in physical activity (OR = 1.9; 95%CI = 1.45-2.63). Having brown/black skin (OR = 1.3; 95%CI = 1.02-1.61) and the habit of eating while surfing the web (OR = 1.4; 95%CI = 1.02-1.88) increased the chances of consuming UPFs. Being enrolled in a private school and being in the third/fourth year of high school reduced UPF consumption by 41.7% and 37.2%, respectively. It is concluded that greater purchasing power and engagement in physical activity influenced the consumption of minimally processed foods. On the other hand, self-reporting as brown/black and internet use increased the chances of greater UPF consumption.
Keywords: food consumption, nutrition, adolescents, risk factors, cross-sectional studies.
INTRODUCTION
Adolescence is a period marked by a high demand for nutrients and energy, associated with changes in dietary habit1,2, with a diet characterized by the low intake of fruits and vegetables, and high consumption of industrialized foods3,4. Overconsumption of these foods is related with a higher intake of energy, saturated fat, and trans fat and a lower intake of dietary fiber and micronutrients5,6, which is concerning given that adequate nutrition is fundamental for the healthy development of adolescents7.
In light of the dietary profile focused on the consumption of foods with a high level of processing, since 2010, many studies in the area of diet and nutrition have been based on the NOVA8 (not an acronym) classification system, which is anchored in the nature, extent, and degree of industrial processing of foods. This system classifies foods and food products into four distinct groups: in natura or minimally processed foods; processed culinary ingredients; processed foods; and ultraprocessed foods (UPFs) 9.
UPF consumption has increased over the years3-6 and among Brazilian adolescents it has been associated with the administrative dependence of the school10-13; with family income6,14,15 and the parents’ educational level14; with physical inactivity6,16; and with sedentary behavior, especially in individuals with high screen time13,16,17; culminating in excess weight3,4,18, metabolic syndrome19, and alterations in lipid profile20 and in arterial pressure21. Similar data have been observed in the international literature22,23. In relation to the consumption of minimally processed foods, this is also influenced by screen time and socioeconomic stratum in Brazilian adolescents15,17.
Despite this evidence, there is still a scarcity in the Brazilian literature of studies that include adolescents aged 15 to 19, from public and private schools6,10-13,17, and that use the NOVA classificiation8,9, primarily to analyze the consumption of in natura or minimally processed foods17. Thus, the present study aimed to analyze the sociodemographic and lifestyle characteristics associated with the consumption of in natura or minimally processed foods and UPFs by adolescents from the Metropolitan Region of Greater Vitória in Espírito Santo (MRGV-ES), Brazil.
METHODOLOGY
Study design
This is a school-based, cross-sectional, epidemiological study derived from the project “Surveillance of risk factors for diseases and grievances in adolescents aged 15 to 19 in the Metropolitan Region of Greater Vitória in Espírito Santo (VIGIADOLEC)”24. The MRGV-ES occupies an area of 2,331.01 km², corresponding to 4.97% of the total area of the State of Espírito Santo25 and accounting for approximately 48% (1.6 million inhabitants) of the state’s population and around 148,628 adolescents aged 15 to 1926. The Human Development Index of the MRGV-ES varies from 0.686 to 0.845 between the seven municipalities that compose it27. According to information from the State Secretariat for Education of Espírito Santo (2014), the MRGV-ES has 168 high schools and 65,763 regularly enrolled students. High school education covers students aged 15 to 19 in Brazil (Law 9,394/1996), the age group that makes up this study.
Sample size calculation
The sample size was calculated in order to estimate the proportion of enrolled students in the MRGV, considering the population of 65,763 high school students enrolled in 168 schools in the MRGV. Based on that universe, the sample size was calculated considering the estimated prevalence of daily consumption of at least one UPF among adolescents (39.7%)16, with a 2.5% margin of error, a 95% confidence interval, and a project design effect of 1.5, resulting in a minimum required sample of 2,160 individuals. However, to improve the representativeness of the sample and the statistical relevance, we used the data on all the adolescents who participated in the VIGIADOLEC.
The sampling process was developed in multiple stages. Initially, the sample was stratified by calculating the municipal quotas, obtained from the percentage distribution of students enrolled in high schools of the MRGV-ES, which was subdivided as follows: Cariacica (19.3%), Fundão (0.5%), Guarapari (5.8%), Serra (23.2%), Viana (3.7%) Vila Velha (22.7%), and Vitória (24.8%). Next, 51 schools were randomly selected using the BioEstat 5.4 program, considering the municipality of the school’s location, the administrative dependence of the school, and the size of the school, in order to guarantee the adequate quantity of students. In the case of a selected school being rejected, it was substituted respecting all the aforementioned sampling criteria.
Inclusion and exclusion criteria
The study involved students regularly enrolled in the public (state and federal) and private high school education networks of the MRGV-ES, in the morning and afternoon sessions, aged between 15 and 19, and who did not present any type of cognitive, auditory, or visual impairment that impeded their active participation in the research. The study included all students who agreed to take part, who handed in the duly signed informed consent forms (ICFs), and who effectively answered the instrument. All the data were provided by the students themselves.
Data collection
The data collection occurred between 2016 and 2017 on the premises of the 54 schools, 43 of which were public and 11 were private. The structured interview was conducted in the chosen sessions during class time by previously trained interviewers. The responsible interviewer read to the group the research instrument, provided online. The adolescents completed it individually, using laptop computers, simultaneously to the reading. The Vigiadolec software is developed to carry out the data collection, enabling online or offline collection.
Instrument and variables
Consumption of in natura or minimally processed and ultraprocessed foods
In this study we considered as an outcome adolescents’ consumption of in natura or minimally processed foods and UPFs. We adopted the food questionnaire of the Surveillance of Risk and Protective Factors for Chronic Diseases by Telephone Survey (VIGITEL)28, which contains the food subgroups most often consumed in Brazil, to assess the dietary intake of the adolescents.
The variable was operationalized based on the question “In the last seven days, on how many days did you consume…?” in relation to each one of the following food groups: beans, raw vegetables or legumes, cooked vegetables or legumes, red meats, white meats, natural fruit juice, fresh fruits, soft drinks, artificial juices, milk, sweets (for example, ice-cream, chocolates, or others), sausages, cookies, and fried snacks. Six frequency categories were stipulated for each food: never, almost never, one or two times a week, three to four times a week, five to six times a week, or every day (including Saturdays and Sundays).
The consumption frequency reported was converted to daily frequency, using the method proposed by Cade et al.29, so that all the foods had the same unit. In the conversion we considered the following daily frequency scores: 0 for never or almost never, 0.21 (1.5/7) for one to two times a week, 0.5 (3.5/7) for three to four times a week, 0.79 (5.5/7) for five to six times a week, and 1 (7/7) for every day of the week.
Subsequently, the foods were grouped according to the criteria proposed by Monteiro et al.9 in the NOVA classification system at: in natura or minimally processed and UPFs. For the group of in natura or minimally processed foods the following food items were included: beans, vegetables, legumes, red meat, white meat, fruits, natural juice, and milk. For the UPF score the indicator variables were the consumption of artificial juice, soft drinks, sausages, cookies, fried snacks and sweets.
Subsequently, the “consumption of in natura or minimally processed foods” was categorized based on the cut-off point of the consumption quartiles30, grouped as follows: 1st quartile up to 3.76g; 2nd quartile between 3.76g and 5.0g; 3rd quartile between 5.0g and 6.21g; 4th quartile over 6.21g. The “UPF consumption” variable was categorized as follows: 1st quartile up to 0.71g; 2nd quartile between 0.71g and 1.21g; 3rd quartile between 1.21g and 1.79g; 4th quartile over 1.79g.
Independent variables
The following independent variables were included: age (15-16, 17, 18-19 years old), sex (female, male), skin color (white, brown/black, yellow, indigenous), administrative dependence of the school (public, private), study session (morning, afternoon), current year of high school (first, second, or third/fourth year), fit between the school year and age (behind, adequate, ahead), relationship status (no partner, lives with a partner, has a partner but does not live with them), whether the adolescent has in paid job (yes, no), educational level of the head of the family (illiterate, complete elementary I – 1st to 4th series, complete elementary II – 5th to 8th series, complete high school, complete higher education), total family income in minimum wages (< 1, 1 to 2, 2 to 3, > 3), and eating while surfing the web (yes, no).
The Physical activity level (PAL) was measured using the International Physical Activity Questionnaire (IPAQ) (version 8, short form, last week), developed by the WHO, with the version in Portuguese validated by Matsudo et al.31. The IPAQ (version 8) was validated for adolescents by Guedes et al.32, and the results of the study show that, in adolescents of both sexes older than 14 years old, the IPAQ presents acceptable measurement properties for monitoring PAL. To classify the adolescents’ physical activity, the criterion developed by the IPAQ Research Committee33 was used.
This classification takes into consideration the criteria of frequency and duration, and classifies PAL into three categories: sedentary – does not engage in physical activity for at least 10 continuous minutes during the week; moderately active – individuals who practice physical activities for at least 10 continuous minutes a week, but not enough to be classified as active; active – fulfills the following recommendations: a) vigorous physical activity – ≥ 3 days/week and ≥ 20 minutes/session; b) moderate or walking – ≥ 5 days/week and ≥ 30 minutes/session; c) any summed activity: ≥ 5 days/week and ≥ 150 minutes/week; or very active, fulfilling the following recommendations: a) vigorous – ≥ 5 days/week and ≥ 30 minutes/session; b) vigorous – ≥ 3 days/week and ≥ 20 minutes/session + moderate and/or walking ≥ 5 days/week and ≥ 30 minutes/session.
Using the Drug Use Screening Inventory (DUSI-R)47 we measured substance use and related problems. This is a questionnaire with 10 areas and 149 questions. The present study used Area 1, composed of 15 questions, which investigates the level of consumption and intensity of substances in the last 12 months, such as: “Have you ever felt a strong desire for alcohol and/or drugs?” This variable was categorized as “Not a user,” “Experimental use,” “Abusive use,” and “Dependence.”
Statistical analysis
The data were analyzed in STATA version 14. The absolute and relative frequencies were calculated and the Pearson chi-squared (X²) test was used to analyze the differences in proportions of quartiles of consumption in natura or minimally processed foods and UPFs with sociodemographic and lifestyle characteristics the adolescents. A 5% significance level was adopted.
The binary logistic regression model was used to investigate the association between the sociodemographic and lifestyle variables and the consumption of in natura or minimally processed foods and UPFs. Variables that presented statistical significance lower than 20% in the X² test were included in the logistic regression, comparing the greatest consumption (third and fourth quartiles) with the lowest consumption (first and second quartiles) of the food groups. The odds ratio (OR) was calculated with the respective 95% confidence intervals (95%CIs) and considering a 5% significance level.
Ethical questions
In order to carry out this study, first it was submitted to the Research Ethics Committee of the Center for Health Sciences of the Federal University of Espírito Santo (UFES) (Resolution 971,389/2015). The adolescents participating in the research who were under 18 needed an informed consent form signed by their parents or legal guardians. When the adolescents were already 18 or over, they had to sign the same consent form to answer the questionnaire.
RESULTS
A total of 2,293 adolescents aged from 15 to 19 and belonging to the MRGV-ES participated in the study. However, only 2,285 presented complete information regarding food consumption. Among the interviewees, most were female (60%), brown/black (63.1%), went to public schools (87.9%), studied in the afternoon session (81.6%), were enrolled in the first year (47.8%), were an adequate age or ahead for their school year (47.0% and 47.9% respectively), did not have a partner (71.6%), had a paid job (23.3%), had a family income between one and two minimum wages (37.2%), ate while they surfed the web (27.1%), were not an alcohol or drug user (34.6%), and regularly engaged in physical activity (51.8%) (Table 1).
The sociodemographic and lifestyle variables were analyzed according to the quartiles of in natura or minimally processed food consumption (Table 1). It was observed a higher proportion of girls in the first quartile (26.7%, n=366) and boys in the fourth quartile of consumption (29.4%, n=269). Adolescents with family income up to one minimum wage showed higher frequency in the first quartile of consumption (32.1%, n=78) and those with higher income in the consumption quartile (26.9%, n=213). Regarding physical activity practice, active students had the highest consumption (30.9%, n=365, p<0.001,) and sedentary students had the lowest consumption (33.9%, n=113).
Regarding UPF consumption (Table 2), the indigenous presented the highest proportion in the first quartile (37.2%, n=16) and the yellow-skinned in the fourth quartile of consumption (26.7%, n=39). Regarding the administrative dependence of the school, adolescents from public school presented the lowest consumption (31.2%, n=86) and those from public schools the highest consumption (24.3%, n=487). As for the school year, the adolescents who are advanced presented the lowest consumption (36.5%, n=42) and the ones who are late the highest consumption (26.1%, n=286).
When checking the marital status, it was observed that adolescents who do not have a partner had the lowest consumption (30.4%, n=495) and those who live with a partner had the highest consumption of UPF (31.0%, n=45). Regarding the education of the head of household, the illiterate individuals showed the highest proportion in the first consumption quartile (46.7%, n=70) and those with primary schools education II, in the fourth quartile of consumption of UPF (26.9%, n=138). The families with income up to one minimum wage stood out with the lowest consumption of UPF (38.7%, n=94) and above three minimum wages with the highest consumption (23.7%, n=188) (Table 2).
The adolescents who were in the habit of eating while surfing the web presented a greater proportion in the fourth quartile of UPF consumption (23.8%, n=144), as did the sedentary ones (24.6%, n=82). In relation to alcohol or drug use, the adolescents who used these substances presented greater UPF consumption (30.0%, n=48) (Table 2).
In the adjusted logistic regression model, it was observed that the adolescents who had a paid job had 27% more chance of engaging in greater consumption of in natura or minimally processed foods compared with those who did not have a paid job (OR = 1.27; 95%CI = 1.04-1.56). A similar relationship was revealed with relation to family income, given that having a family income greater than three minimum wages increased the chance of consuming items from this food group by 55% (OR = 1.55; 95%CI = 1.10-2.17) compared with a family income under one minimum wage (Table 3).
Along these same lines, the adolescents who were in the habit of regularly engaging in physical activity had 1.96 times more chance of presenting greater consumption of in natura or minimally processed foods compared to the sedentary ones (95%CI = 1.45-2.63) (Table 3).
Regarding the model adjusted for UPF consumption (Table 4), a greater probability of consumption was verified among brown/black adolescents (OR = 1.28; 95%CI = 1.02-1.61) compared with white ones. The presence of schooling of the head of the family contributed to increasing UPF consumption in relation to the illiterate ones (elementary I – OR = 1.85; 95%CI = 1.15-2.99; elementary II – OR = 2.07; 95CI% = 1.30-3.28; high school – OR = 1.94; 95%CI = 1.23-3.04; and higher education – OR = 1.82; 95%CI = 1.12-2.95).
Another factor associated with greater UPF consumption was the habit of eating while surfing the web, with a 38% increase in the chance of this consumption compared to the adolescents who did not have that behavior (Table 4).
Regarding the protective factors, the students enrolled in private schools had a 41.7% lower chance of consuming UPFs compared with those from public schools. Along the same lines, being enrolled in the third/fourth year reduced UPF consumption by 37.2% compared with the students in the first year (Table 4).
DISCUSSION
This study identified that the habit of eating while surfing the web, having brown/black skin, and the different educational levels of the head of the family contributed to increasing the chance of UPF consumption. On the other hand, being enrolled in the third/fourth school year and belonging to a private school presented a lower probability of UPF consumption. Regarding in natura or minimally processed food consumption, the adolescents who had a paid job, a higher family income, and who engaged in physical activity had a higher chance of consuming these foods.
The relationship between the habit of eating while surfing the web on UPF consumption can be explained by the distraction effect and the influence on satiety mechanisms, besides the presentation, practicality, palatability and the ease attributed to UPF also stimulate excessive consumption of these foods10,35. The habit of eating while watching TV or studying has been associated with excessive consumption of PU among Brazilian adolescents10.
Exposure to digital marketing of unhealthy foods35,36,37 is another factor justifying this association. In the United States, adolescents with high susceptibility to advertising were more prone to consuming at least one sugary drink a day37. There was a direct association between attraction to the foods advertised and purchasing the product among children and adolescents from a private school in Brazil35. Thus, it is important to consolidate policies that aim to restrict the presence of UPF advertising with the view to promoting healthy food choices among children and adolescents.
In addition, daily internet use may be associated with sedentary behavior. Silva et al.10 highlighted that the habit of sitting for more than four hours a day, including the use of screens and other electronic devices such as videogames, cellphones, and computers, contributed to an increase in UPF consumption. So, the constant interaction of young people with the technological environment may interfere decisively in the behaviors adopted by this population38.
With relation to skin color, the data revealed greater UPF consumption among brown/black adolescents. This racial disparity in adolescents’ food consumption was also found in the United States37. In Brazil, the consumption of food rich in fat, a characteristic of PSAs, is associated with brown/black skin colour, while the consumption of fruit, vegetables and greens is higher among whites39.
The educational level of the head of the family was another factor associated with a higher probability of UPF consumption. More schooling enhances food purchasing, which increases access to foods. A high educational level is generally associated with family income; however, a higher income is not always related to healthy food choices14,40,41. Miqueleiz et al.23 observed that children and adolescents from Spanish families from a high socioeconomic stratum showed high consumption of unhealthy foods (fast food, sugary drinks, snacks, chips, and cookies).
Also in the context of the adolescent’s schooling, currently being in the third/fourth year of secondary school was a protective factor for UPF consumption. A higher educational level is normally expected to be associated with a higher level of health knowledge, which can contribute to healthier behavior39. However, the association between schooling and food consumption still presents a divergence in the literature14,39,40, which suggests that culture is another influencing factor for the dietary intake of Brazilians39.
Adolescents from private schools presented a lower chance of UPF consumption. In contrast, excessive consumption of UPF was observed among Brazilian adolescents from private schools10. This divergence in the characterization of the food environment was observed among Brazilian regions; in the southern region, public schools presented a less obesogenic food environment; however, in the northern region, a more obesogenic environment was found42.
It is believed that food consumption observed in public schools in the present study may be related to the recommendations of the National School Meals Programme (NSMP), despite the nonmandatory nature of public schools in adhering to the programme. NSMP presents guidelines to promote healthy eating in public basic education43 and the incentive to include food and nutrition education actions in schools contributes to the adoption of healthier eating practices.
The adolescent having a paid job and high family purchasing power contributed to increasing the chance of consuming in natura or minimally processed foods. Adolescents who work have greater autonomy and a higher income, which may explain the better food choices observed in the study. Canuto et al.39 found that the consumption of foods that contain essential nutrients for health (fruits, legumes, vegetables, and meats) is higher among higher income individuals.
It is noted that the association between family income and food consumption in Brazil still presents a contradictory dietary pattern14,15,17,41. In a recent review39 that analyzed the social inequalities in food consumption in Brazil, it was highlighted that higher income families have a more diversified diet that is rich in nutrients, but they also engage in high UPF consumption. In contrast, more monotonous food consumption was inversely associated with a lower income39. Similar results were found in another review in developing countries44; however, in developed countries, there is a clearer association between a higher socioeconomic level and a healthy dietary intake45.
Engagement in physical activity was another factor related with a greater chance of consuming in natura or minimally processed foods. Those who engage in physical activity tend make better food choices, as well as presenting control over the consumption of high calorie foods46, as is the case of UPFs. Complementarily, other Brazilian studies indicate that sedentary behavior contributes to greater UPF consumption6,16,36. Thus, it is essential for engagement in physical activity to be stimulated in order to promote the health of adolescents and contribute to better food choices.
The consumption of in natura or minimally processed foods should be stimulated and it is essential to include actions for promoting dietary and nutritional education in the school context, putting Law 12,666 of 201847 into practice, which establishes the inclusion of the topic of food and nutrition education in science and biology subjects. This law constitutes a fundamental advancement for the promotion of healthy dietary habits in infancy and adolescence.
Regarding the limitations, there is the possibility that the method used for collecting the information about food consumption may have involved underestimation; however, the module of questions regarding the consumption of food subgroups, initially developed for the Vigitel system, has already been employed in two national surveys of the Brazilian Institute of Geography and Statistics (IBGE): the 2019 National Health Study48 and the 2019-2020 National School Student Health Study49. In addition, this instrument was validated in a study conducted in 201850 and showed substantial agreement (PABAK index: 0.72) between quintiles of the UPF consumption score (calculated using an identical questionnaire to the one used in Vigitel) and quintiles of the contribution of UPFs to total daily energy intake (calculated using 24 hour food memory), both calculated based on food consumption the previous day50. Another possible limitation was the possibility of occurrence of reverse causality due to the cross-sectional characteristic of the study.
However, despite the limitation indicated, the data presented here reflect the food consumption reality of the adolescents aged 15 to 19 from the MRGV-ES and the study design adopted enables us to suppose that the conclusions can be used in a similar context. It also warrants mentioning that this research uses a school-based sample from the public and private network representative of adolescents from the MRGV-ES.
In the present study, the classification of foods by the extent of processing and the quartile was used to define the consumption of a given group. This classification enabled us to determine the foods that belonged to the group that presented high levels of sugar, saturated fat, trans fat, and a low quantity of fibers, which are characteristics that the literature shows belong to UPFs, which intensifies the risks for obesity, dyslipidemia and metabolic syndrome3,4,18-21.
Finally, this paper reinforces the need to develop strategies for promoting a healthy diet and reducing sedentary behavior, as well as the regulation of UPF advertising, with the aim of avoiding unhealthy lifestyles persisting into adult life. In the meantime, it warrants mentioning the importance of the school, as well as the parents or guardians, in the formation of the adolescents’ dietary habits.
CONCLUSION
It is concluded that the fact the adolescent had a paid job, a family income above three minimum wages, and engaged in physical activity had the highest consumption of in natura or minimally processed foods. On the other hand, self-reporting as brown/black and the habit of eating while using the internet increased the chances of greater UPF consumption, while being from a private school and being enrolled in the third/fourth year of high school were protective factors for UPF consumption.
Thus, we suggest the promotion of dietary and nutritional health actions in the school and family environment, together with public policies that seek to make adolescents more aware of adopting a healthier lifestyle, with greater inclusion of in natura or minimally processed foods in their diet, as well as engagement in physical activity and rational use of the internet when eating.
REFERENCES
1. Wu XY, Han LH, Zhang JH, Luo S, Hu JW, Sun K. The influence of physical activity, sedentary behavior on health-related quality of life among the general population of children and adolescents: A systematic review. PLoS One 2017; 12(11):e0187668.
2. World Health Organization (WHO). Child and adolescent health and development progress report 2009: highlights. Geneva, Switzerland: WHO, 2010.
3. Costa CS, Del-Ponte B, Assunção MC, Santos IS. Consumption of ultra-processed foods and body fat during childhood and adolescence: a systematic review. Public Health Nutr 2018; 21:148–159.
4. Louzada MLC, Baraldi LG, Steele EM, Martins APB, Canella DS, Moubarac JC, Levy RB, Cannon G, Afshin A, Imamura F, Mozaffarian D, Monteiro CA. Consumption of ultra-processed foods and obesity in Brazilian adolescents and adults. Prev Med 2015; 81:9–15.
5. Bielemann RM, Mota JVS, Minten GC, Horta BL, Gigante DP. Consumption of ultra-processed foods and their impact on the diet of young adults. Rev Saude Publica 2015; 49(28).
6. D’Avila HF, Kirsten VR. Energy intake from ultra-processed foods among adolescents. Rev Paul Pediatr 2017; 35(1):54-60.
7. Ministério da Saúde (MS). Guia alimentar para a população brasileira. Brasília: MS; 2014.
8. Monteiro CA, Levy RM, Claro RM, Castro IRR, Cannon G. A new classification of foods based on the extent and purpose of their processing. Cad Saude Publica 2010; 26(11):2039–2049.
9. Monteiro CA, Cannon G, Levy RB, Moubarac JC, Jaime P, Martins AP, Canella D, Louzada M, Parra D, Ricardo CC, Calixto G, Machado P, Martins C, Martinez E, Baraldi L, Garzillo J, Sattamini I. A estrela brilha: Classificação dos alimentos. Saúde Pública. World Nutrition 2016; 7(13).
10. Silva JB, Eliasa BC, Warkentina S, Maisa LA, Konstantynera T. Factors associated with the consumption of ultra-processed food by Brazilian adolescents: National Survey of School Health, 2015. Rev Paul Pediatr 2022; 40:e2020362.
11. Lima LR, Nascimento LM, Gomes KRO, Martins MCC, Rodrigues MTP, Frota KMG. Associação entre o consumo de AUP e parâmetros lipídicos em adolescentes. Cien Saude Colet 2020; 25(10):4055-4064.
12. Noll PRS, Noll M, Abreu LC, Baracat EC, Silveira EA, Sorpreso ICE. Ultra-processed food consumption by Brazilian adolescents in cafeterias and school meals. Sci Rep 2019; 9(7162):1-8.
13. Rocha LL, Gratão LHA, Carmo AS, Costa ABP, Cunha CF, Oliveira TRPR, Mendes LL. School Type, Eating Habits, and Screen Time are Associated With Ultra-Processed Food Consumption Among Brazilian Adolescents. J Acad Nutr Diet 2021; 121(6):1136-1142.
14. Enes CC, Camargo CM, Justino MI. Ultra-processed food consumption and obesity in adolescents. Rev Nutr 2019; 32:e180170.
15. Costa BGG, Duca GFD, Silva KS, Benedet J, Malheiros LEA, Quadros EM, Streb AR, Rezende LFM. Socioeconomic inequalities in the consumption of minimally processed and ultra-processed foods in Brazilian adolescents. Cien Saude Colet 2022, 27(4):1469-1476.
16. Costa CS, Flores TR, Wendt A, Neves RG, Assunção MCF, Santos IS. Sedentary behavior and consumption of ultra-processed foods by Brazilian adolescents: Brazilian National School Health Survey (PeNSE), 2015. Cad Saude Publica 2018; 34(3):e00021017.
17. Melo AST, Neves FS, Batista AP, Machado-Coelho GLL, Sartorelli DS, Faria ER, Michele P Netto MP, Oliveira RMS, Fontes VS, Cândido APC. Percentage of energy contribution according to the degree of industrial food processing and associated factors in adolescentes (EVA-JF study, Brazil). Public Health Nutr 2021; 24(13):4220-29.
18. Askari M, Heshmati J, Shahinfar H, Tripathi N, Daneshzad E. Ultraprocessed food and the risk of overweight and obesity: a systematic review and meta-analysis of observational studies. Int J Obes 2020; 44:2080–2091.
19. Tavares LF, Fonseca SC, Rosa MLG, Yokoo EM. Relationship between ultra-processed foods and metabolic syndrome in adolescents from a Brazilian Family Doctor Program. Public Health Nutr 2012; 15(1):82–87.
20. Beserra JB, Soares NIS, Marreiros CS, Carvalho CMRG, Martins MCC, Freitas BJSA, Santos MM, Frota KMG. Do children and adolescents who consume ultra-processed foods have a worse lipid profile? A systematic review. Cien Saude Colet 2020; 25(12):4979-89.
21. Payab M, Roya K, Qorbani M, Motlagh ME, Ranjbar SH, Ardalan G, Zahedi H, Chinian M, Asayesh H, Larijani B, Heshmat R. Association of junk food consumption with high blood pressure and obesity in Iranian children and adolescents: the CASPIAN-IV Study. J Pediatr 2015; 91:196–205.
22. Diethelm K, Moreno LA, Huybrechts I, Henauw S, Vriendt T, González-Gross M, Leclercq C, Gottrand F, Gilbert CC, Dallongeville J, Cuenca-Garcia M, Manios Y, Kafatos A, Plada M, Kersting M, Helena SG. Food intake of European adolescents in the light of different food-based dietary guidelines: results of the HELENA (Healthy Lifestyle in Europe by Nutrition in Adolescence) Study. Public Health Nutr 2012; 15(3):386-98.
23. Miqueleiz E, Lostao L, Ortega P, Santos JM, Astasio P, Regidor E. Socioeconomic pattern in unhealthy diet in children and adolescents in Spain. Aten Primaria. 2014; 46:433-9.
24. Reisen A, Leite FMC, Santos-Neto ET. Association between social capital and bullying among adolescents aged between 15 and 19: relations between the school and social environment. Cien Saude Colet 2021; 26(Supl. 3):4919-4932.
25. Neto AAB, Fabriz A, Lorena RB. Mapeamento espaço-temporal da expansão urbana da RMGV-ES no período de 1991 a 2009 no Estado do Espírito Santo. In: Simpósio Brasileiro de Sensoriamento Remoto, 15., Curitiba. Anais. Curitiba: SBSR, 2011. p. 0714–0721.
26. Instituto Brasileiro de Geografia e Estatística (IBGE). Censo demográfico 2010 [Internet]. [Citado 2021 Jan 30]. Disponível em: http://censo2010.ibge.gov.br?
27. Atlas do desenvolvimento Humano no Brasil. Ranking – Espírito Santo [Internet]. 2010 [Citado 2021 Jan 30]. Disponível em: www.atlasbrasil.org.br/2013/pt/ranking.
28. Ministério da Saúde (MS). Secretaria de Vigilância em Saúde. Secretaria de Gestão Estratégica e Participativa. Vigitel Brazil 2009: surveillance of risk and protective factors for chronic diseases by telephone survey [Internet]. Brasília (DF): Ministério da Saúde; 2010. [Citado 2021 Mar 10]. Disponível em: http://189.28.128.100/dab/docs/publicacoes/
geral/publicacao_vigitel_2009.pdf
29. Cade J, Thompson R, Burley V, Warm D. Development, validation and utilisation of food-frequency questionnaires - a review. Public Health Nutr 2002; 5(4):567–587.
30. Pereira MT, Cattafesta M, Santos Neto ET, Salaroli LB. Maternal and Sociodemographic Factors Influence the Consumption of Ultraprocessed and Minimally-Processed Foods in Pregnant Women. Rev Bras Ginecol Obstet 2020; 42(7):380–389.
31. Matsudo S, Araújo T, Matsudo V, Andrade D, Andrade E, Oliveira LC, Braggion G. Questionário Internacional de Atividade Física (IPAQ): estudo de validade e reprodutibilidade no brasil. Rev. Bras. Ativ. Fis. Saude 2012, 6(2):5-18.
32. Guedes DP, Lopes CC. Reprodutibilidade e validade do Questionário Internacional de Atividade Física em adolescentes. Rev Bras Med Esporte 2005; 11:8.
33. Research Committee. Guidelines for Data Processing and Analysis of the International Physical Activity Questionnaire (IPAQ)., 2005. [Citado 2020 nov 26]. Disponível em:
34. Micheli D, Formigoni ML. Screening of drug use in a teenage Brazilian sample using the Drug Use Screening Inventory (DUSI). Addict Behav 2000; 25(5):683-691.
35. Costa SM, Horta PM, Santos LC. Food advertising and television exposure: influence on eating behavior and nutritional status of children and adolescents. Arch Latinoam Nutr 2012; 62:53-9.
36. Delfino LD, Silva DA, Tebar WR, Zanuto EF, Codogno JS, Fernandes RA, Christofaro DG. Screen time by different devices in adolescents: association with physical inactivity domains and eating habits. J Sports Med Phys Fitness 2018; 58:318-25.
37. Cervi MM, Agurs-Collins T, Dwyer LA, Thai CL, Moser RP, Nebeling LC. Susceptibility to food advertisements and sugar-sweetened beverage intake in non-Hispanic black and non-Hispanic white adolescents. J Community Health 2017; 42:748-56.
38. Shah J, Das P, Muthiah N, Milanaik R. New age technology and social media: adolescent psychosocial implications and the need for protective measures. Curr Opin Pediatr; 2019; 31:148-56.
39. Canuto R, Fanton M, Lira PIC. Social inequities in food consumption in Brazil: a critical review of the national surveys. Cien Saude Colet 2019; 24(9):3193-3212.
40. Leal M, Paiva S, Sousa SSL, Lima CE, Silva ARV, Nascimento FF, Mascarenhas MDM. Sociodemographic and behavioural factors associated with overweight in Brazilian adolescents – 2015. Adolesc Saude 2019; 16:16-26.
41. Pesquisa de Orçamentos Familiares (POF) 2017-2018: perfil das despesas no Brasil: indicadores selecionados de alimentação, transporte, lazer e inclusão financeira / IBGE, Coordenação de Trabalho e Rendimento. Rio de Janeiro: IBGE, 2021.
42. Carmo AS, Assis MM, Cunha CF, Oliveira TRPR, Mendes LL. The food environment of Brazilian public and private schools. Cad Saude Publica 2018; 34(12):e00014918.
43. Brasil. Ministério da Educação. Fundação para o Desenvolvimento da Educação. Programa Nacional de Alimentação Escolar. Brasília (DF): Ministério da Educação; 2019 [Citado 2022 ago 08]. Disponível em: https://www.fnde.gov.br/programas/pnae/pnae-areagestores/pnae-manuais-cartilhas/item/12094-caderno-delegisla%C3%A7%C3%A3o-2019
44. Mayen AL, Marques-Vidal P, Paccaud F, Bovet P, Stringhini S. Socioeconomic determinants of dietary patterns in low- and middle-income countries: a systematic review. Am J Clin Nutr 2014; 100(6):1520-1531.
45. Giskes K, Avendano M, Brug J, Kunst AE. A systematic review of studies on socioeconomic inequalities in dietary intakes associated with weight gain and overweight/obesity conducted among European adults. Obes Rev 2010; 11(6):413-29.
46. Beaulieu K, Hopkins M, Gibbons C, Oustric P, Caudwell P, Blundell J, Finlayson G. Exercise training reduces reward for high-fat food in people with overweight/obesity. Med Sci Sports Exerc 2019; 52(4):900-908.
47. Brasil. Lei nº 13.666, de 16 de maio de 2018. Altera a Lei nº 9.394, de 20 de dezembro de 1996 (Lei de Diretrizes e Bases da Educação Nacional), para incluir o tema transversal da educação alimentar e nutricional no currículo escolar. Diário Oficial da União 2018.
48. Instituto Brasileiro de Geografia e Estatística (IBGE), Agência IBGE Notícias. IBGE conclui coleta da PNS e prevê novas pesquisas de saúde. Rio de Janeiro: IBGE; 2020 [Citado 20 jun 2020]. Disponível em: https://agenciadenoticias.ibge.gov.br/agencia-noticias/2012-agencia-de-noticias/noticias/27124-ibge-conclui-coleta-da-pns-e-preve-novas-pesquisas-de-saude.
49. Instituto Brasileiro de Geografia e Estatística (IBGE), Agência IBGE Notícias. Pesquisa traça perfil das condições de saúde e hábitos dos estudantes no país. [Citado 20 jun 2020]. Disponível em: https://agenciadenoticias.ibge.gov.br/agencia-noticias/2012-agencia-de-noticias/noticias/24166-pesquisa-traca-perfil-das-condicoes-de-saude-e-habitos-dos-estudantes-no-pais.
50. Sattamini IF. Instrumentos de avaliação da qualidade de dietas: desenvolvimento, adaptação e validação no Brasil [tese]. São Paulo: Faculdade de Saúde Pública da Universidade de São Paulo; 2019.