Food systems can impact the health of populations in different ways, and they have been identified as one of the drivers of the global syndemic of obesity, undernutrition and climate change(Reference Swinburn, Kraak and Allender1). One of the components of food systems is the food environment, which acts as a mediator between food supply chains and food practices, and it encompasses the availability, affordability, convenience and desirability of food. Thus, food environments influence decisions about food acquisition, preparation and consumption – the latter, in turn, interferes with people’s nutritional status(2–Reference Downs, Ahmed and Fanzo4).
Knowledge and understanding of food environments, including where, what, by whom, when, why, and how food is acquired and consumed, have been considered fundamental aspects to understand the phenomenon of malnutrition in all its forms(Reference Turner, Aggarwal and Walls3). Previous review studies indicated a wide range of conceptual models, methods and metrics to characterise and measure the different dimensions of food environments(Reference Caspi, Sorensen and Subramanian5–Reference Toure, Herforth and Pelto9). They also showed that unhealthy food environments are associated with unhealthy food practices and with health outcomes related to overweight and obesity(Reference Black, Ntani and Inskip10,Reference Mackenbach, Rutter and Compernolle11) . Furthermore, they pointed out that different population groups are disproportionately affected, that is, low-income people and ethnic minorities are more exposed to unhealthy environments(Reference Black, Ntani and Inskip10,Reference Mackenbach, Rutter and Compernolle11) . However, research on this topic is most often conducted in high-income contexts; for this reason, food environments must be characterised in different places, such as low- and middle-income countries, and cities of different sizes.
In the scenario of scientific research on food environments, there is controversy about the role of Brazil in this research agenda. Turner et al.(Reference Turner, Aggarwal and Walls3) stated that research on food environments in middle- and low-income countries, such as Brazil, was still incipient, and they proposed a conceptual model to support and leverage the research in the context of such countries. On the other hand, Pérez-Ferrer et al.(Reference Pérez-Ferrer, Auchincloss and de Menezes12) highlighted the leading role of Brazil in scientific research on food environments in Latin America, a fact that was also pointed out in the scoping review by Muzenda et al.(Reference Muzenda, Dambisya and Kamkuemah8), who identified methods for evaluating food environments in low- and middle-income countries, thereby reinforcing the role of Brazil in studies on this topic. However, in another scoping review, Turner et al.(Reference Turner, Kalamatianou and Drewnowski7) highlighted again both the scarce scientific literature on the subject and the low quality of the studies, and they underscored the reduced number of publications in Brazil.
There is considerable controversy concerning the quality and the number of studies on food environments in Brazil – a fact that has been mentioned in different publications. Moreover, there is a growing interest in the current research scenario on the subject across the country. Therefore, the objective of the present scoping review was to map the scientific research on food environments in Brazil and identify knowledge gaps in order to promote a comprehensive research agenda and contribute to the formulation of public policies.
Methods
The present scoping review summarised the scientific research on food environments in Brazil, following the checklist and guidelines of the Preferred Reporting Items for Systematic Reviews and Meta-Analyses – Extension for Scoping Reviews (PRISMA-ScR)(Reference Tricco, Lillie and Zarin13), aiming to ensure a robust and reproducible process. This review did not have a previously registered protocol.
Research questions
Considering the objective to map the scientific research on food environments in Brazil, the review had these research questions: (1) How many studies have addressed food environments in Brazil?; (2) Which institutions have conducted most research on this topic in the country?; (3) What study designs and methodological approaches were applied?; (4) What is the geographic scope of the studies?; (5) What scenarios and dimensions of food environments were studied?; (6) Which population groups were studied?; (7) How were food environments conceptualised?; (8) What are the main limitations of studies on food environments in Brazil?
Search strategy
In February 2023, a systematic search was conducted for articles published and peer-reviewed from 1 January 2005 to 31 December 2022. This period was chosen as a starting point because of the publication of the conceptual model of food environments proposed by Glanz et al.(Reference Glanz, Sallis and Saelens14).
Considering the still scarce adequacy of descriptors for the food environment theme, according to the Medical Subject Headings – MeSH and the descriptors in health sciences – DeCS, different search terms were used to capture the breadth of the nomenclature adopted in research and the scope of the main dimensions of food environments, according to different conceptual models(Reference Downs, Ahmed and Fanzo4,Reference Glanz, Sallis and Saelens14,Reference Granheim15) . The terms food environment or nutrition environment were used in combination with community, organisational, consumer, information, home, school, digital, virtual, perceived, observed, neighbourhood, retail, local, urban, natural, built, formal, informal, university, hospital, workplace, food swamp and food desert.
The search was conducted in four electronic databases: MEDLINE, SciELO, Scopus and Web of Science. The Boolean operator OR was used for terms that defined different types or dimensions of food environments, and they were combined using the AND operator with the name of the country. The descriptors used and the search strategy adopted in each database are described in Supplementary Material S1.
Eligibility criteria
The present review included articles published online in peer-reviewed journals, between January 2005 and December 2022, that described or evaluated food environments in Brazil or investigated their association with diet, nutritional status, or other health outcomes. To this end, a broad strategy was used, covering quantitative, qualitative and mixed-method studies, as well as comments or review articles or opinions on some aspects of food environments. There were no restrictions on the language of publication. The following were excluded: (a) studies carried out outside Brazil; (b) conference abstracts; (c) articles on topics related to the food systems with a focus on food production, storage, transport, distribution and food security which did not address a direct perspective of food environments.
Selection of studies
First, all retrieved records were transferred to the software Endnote V.X9 to remove duplicates. Then, two authors (LVB and LLR) selected the studies independently, according to the eligibility criteria. All titles and abstracts were read to check inclusion and exclusion criteria. Then, the full texts of the articles were retrieved and screened. At each selection step, disagreements were resolved by discussion between the authors involved in the screening procedure. Whenever a consensus could not be achieved, a third reviewer (DSC) was asked to evaluate the article in question and offer an opinion.
All articles were published in journals approved by the Directory of Open Access Journals (DOAJ).
Data extraction and analysis
The data were extracted using a standardised data extraction form, developed by two reviewers (LVB and LLR) in Google Forms. This instrument was previously tested by these evaluators in a random sample of ten articles and refined after being checked by the other authors to ensure that all relevant information had been retrieved. Each reviewer extracted data from half of the articles and had their work carefully checked by the other reviewer. Disagreements were also resolved between the authors in charge of data extraction and, if necessary, a third author (DSC) was involved.
The extracted variables were title, year of publication, journal name, institution affiliation of the first author, country of the institution of the first author, language, study objective, macroregion where the study was conducted, geographic coverage, methodological approach, study design, study population, sampling plan, focus on food environments, data source, explicit adoption of conceptual food environment models and their specification (when applicable), type of food environment, dimension of the food environment, health and nutrition outcome assessed, the instrument used to collect data on food environments and limitations pointed out by the authors concerning food environment data. Concerning the type and the dimension of the food environment, the definition of type was based on Glanz(Reference Glanz, Sallis and Saelens14) et al and Granheim(Reference Granheim15), and the dimension was based on Swinburn et al.(Reference Swinburn, Sacks and Vandevijvere16). Despite not all studies mentioning the adoption of these conceptual models, we proceeded with the classification of each study according to them.
The extracted information was described using absolute and relative frequencies to help the narrative synthesis of the findings. As expected in a scoping review, the quality of the studies was not evaluated(Reference Tricco, Lillie and Zarin13).
Results
The search strategy resulted in 4616 articles. After removing duplicates (n 468) and publications before 2005 (n 231), 3917 unique records were identified, and 171 of them were considered for full-text screening against eligibility criteria. The agreement rate between the two reviewers was 99·1 %. In the end, 130 articles were included (Fig. 1). The complete list of articles with a description of the main characteristics of the articles is provided in Supplementary Material S2.
There was a significant increase in the number of articles published per year as of 2018, especially from 2020 to 2022. The peak in the number of publications occurred in 2022 (25·4 %) (Fig. 2). Among the 112 studies included, the first author of 128 articles had an institutional affiliation with Brazilian universities or research institutions. The institutions that appeared most frequently in the affiliation of the first author are the Federal University of Minas Gerais (UFMG) (26·9 %) and the University of São Paulo (USP) (23·1 %), both from the Southeast region of Brazil (data not shown).
Geographically, research on the food environment in Brazil is mostly concentrated in the Southeast region (53·7 %), in state capitals (56·8 %) and in metropolitan regions (22·9 %). The number of studies carried out in the North, Northeast and Central-West regions (24·5 %), together, was similar to that of works referring to the South region individually (17·6 %). In addition, only twenty-four articles (20·3 %) analysed food environment scenarios in small- or medium-sized cities. Regarding the language of publication, ninety-eight articles are available in English (75·4 %), twenty both in English and Portuguese (15·4 %), and twelve in Portuguese (9·2 %) (Table 1). No full text was available in Spanish.
* The same article can be included in more than one category.
It is noteworthy that for 80·8 % of the studies, the analysis of food environments was their main focus, while the others secondarily investigated some food environment-related variables. A quantitative analytical approach was used in sixty-eight studies (52·3 %), while only three (2·3 %) had a qualitative approach. The predominant epidemiological study design was cross-sectional (63·1 %), both among descriptive studies (n 26) and among analytical studies (n 55), followed by the ecological design (20·8 %, twenty-one were descriptive and six analytical), and studies of validity or reliability of instruments and measures (8·4 %) (Table 1).
The community food environment was the main type evaluated in Brazil (52·7 %), followed by the organisational environment (26·7 %), with emphasis on the investigation of the school environment (n 26), and the consumer food environment (13·0 %). It is noteworthy that the articles that addressed the digital food environment (3·5 %) were published as of 2020. Almost all of the studies (66·7 %) addressed the physical food environment, and 22·9 % covered the sociocultural dimension (Table 2).
* The same article can be included in more than one category.
† Glanz K, Sallis JF, Saelens BE et al. (2005) Healthy nutrition environments: concepts and measures. Am J Health Promot 19, 5, 330–3. doi: 10·4278/0890–1171–19·5·330.
‡ Swinburn B, Egger G, Raza F (1999) Dissecting obesogenic environments: the development and application of a framework for identifying and prioritising environmental interventions for obesity. Prev Med 29, 6, 563–570.
§ Food and Agriculture Organization of the United Nations (FAO) (2019) School food and nutrition framework. Rome: FAO.
|| Granheim SI, Opheim E, Terragni L et al. (2020) Mapping the digital food environment: a scoping review protocol. BMJ Open 10, 4, e036241. doi: 10·1136/bmjopen-2019–036 241.
¶ Espinoza PG, Egaña D, Masferrer D et al. (2018) Propuesta de un modelo conceptual para el estudio de los ambientes alimentarios en Chile. Rev Panam Salud Publica 41, e169. doi: 10·26 633/RPSP.2017·169.
** Caspi CE, Sorensen G, Subramanian SV et al. (2012) The local food environment and diet: a systematic review. Health Place 18, 5, 1172–87. doi: 10·1016/j.healthplace.2012·05·006.
†† Granheim SI (2019) The digital food environment. UNSCN Nutrition 44, 116–121.
‡‡ Story M, Kaphingst KM, Robinson-O’Brien R et al. (2008) Creating healthy food and eating environments: Policy and environmental approaches. Annu Rev Public Health 29, 1, 253–272. doi: 10·1146/annurev.publhealth.29·020 907·090 926.
§§ Swinburn B, Sacks G, Vandevijvere S et al. (2013) INFORMAS (International Network for Food and Obesity/non-communicable diseases Research, Monitoring and Action Support): overview and key principles. Obes Rev 14, 1, 1–12.
Seventy-one studies analysed the food environment related to some population groups. Most of them covered the adult population (26·5 %), adolescents (14·3 %), or schoolchildren (10·0 %), and 76·1 % of those evaluated a representative sample of the population, and 22·5 % used a convenience sample. Among fifty-two studies that investigated other units of analysis (e.g. retail and markets), 42·4 % carried out a census, 28·8 % analysed a representative sample and 28·8 % analysed a convenience sample. Regarding the outcome of the studies, the most recurrent were food consumption (27·1 %), description of the environment (27·1 %), parameters for adiposity measurement (18·7 %), and validation and/or assessment of the reliability of instruments for measuring the environment (9·3 %) (Table 2).
In 101 articles, the adoption of a conceptual model on the food environment was not clearly mentioned. Among the studies that explained the adoption of a model, the most cited was that of Glanz et al. (2005) (13·4 %). Only four were based on the model proposed by Swinburn et al. (1999), and two or fewer studies were based on other models (Table 2).
There was a wide range of instruments for the measurement of food environments in Brazil. Most studies used instruments designed particularly for the collection of food environment data (n 24) or analysed variables collected in questionnaires applied in national surveys (n 16), for example, the National Survey of School Health (PeNSE)(17–19) and the Study of Cardiovascular Risks in Adolescents (ERICA)(Reference Bloch, Szklo and Kuschnir20,Reference Silva, Klein and Souza21) . The instruments of the Obesogenic Environment Study in São Paulo (ESAO)(Reference Duran, Lock and Latorre22) (n 9), adapted versions of the Nutrition Environment Measurement Tool (NEMS)(Reference Martins, Cremm and Leite23) (n 8) and the Audit-NOVA(Reference Borges and Jaime24) (n 7) (data not shown) were also relevant.
The main limitation pointed out by the authors of food environment studies was the possibility of bias in data collection (19·4 %), the use of secondary data (18·5 %) and the lack of a representative sample (17·1 %). Other limitations reported included old data (11·1 %) and do not evaluate informal markets (8·5 %) (Table 3).
* The same article can be included in more than one category.
Discussion
The present scoping review evaluated the scientific research on the food environment in Brazil and identified 130 studies carried out between January 2005 and December 2022. Most of them were conducted in some capital cities of the Southeast region. The analytical quantitative approach and the cross-sectional design were the most frequently used. Most articles were published in English. Most studies assessed the community food environment and focused on aspects of the physical dimension; most often, they addressed the adult population and used primary data. In addition, most of the articles did not use a formal definition of the food environment according to a given conceptual model. They described the food environment and adopted food consumption as the main outcome.
The growing number of publications on food environments in Brazil in recent years and the predominance of English as the language of publication shows that Brazilian scientific research on this topic has been intense and is accessible to the global scientific community. These results contrast with the report by Turner and colleagues in 2018 and 2020(Reference Turner, Aggarwal and Walls3,Reference Turner, Kalamatianou and Drewnowski7) , which highlighted the immaturity and low quality of research on food environments in low- and middle-income countries, such as Brazil. Such claims may have been made as a result of a restricted search strategy, as pointed out by Mendes et al.(Reference Mendes, Pessoa and Duarte25).
Articles differ widely in terms of region and geographic location. This scenario is, to some extent, convergent with regional inequalities in science, technology and innovation in Brazil. The two universities with the highest production of research on food environments (UFMG and USP) are among the top universities in the country in terms of scientific research(26). They are located in states of the Southeast region, which receives most funds for research(Reference Cavalcante27,Reference Silva and Soares28) , and their major campuses were built in capital cities (Belo Horizonte and São Paulo). On the other hand, of the total number of Brazilian municipalities (n 5570), the vast majority are located in the inland towns of the states and there is a great economic, sociocultural and urban development diversity among them(Reference Santos29). This points to the need to conduct food environment research in Brazil’s countryside in order to encourage the formulation of public policies that take into account different realities and scenarios.
Despite the community food environment being assessed in half of the studies evaluated (n 52·7 %), the discussion about food deserts and swamps is relatively new in Brazil, with only six articles measuring it and the first one published in 2017(Reference Davies, Frausin and Parry30). At least in part, the incorporation of these analyses in the scientific literature could be induced by the Technical study – mapping food deserts in Brazil(31), a publication made by the Ministry of Social Development in 2018. It can be considered a good example of the mutual influence of government and the academy, with scientific evidence orienting the public policies but also decision-makers influencing the research agenda.
Most of the articles used primary data. However, in one-third of them, the instrument used to measure the environment was particularly designed for the study itself, often without validity and reliability assessment. This casts doubt on the quality of the data and the interpretation of the findings; also, it hinders reproducibility and comparability with other studies. However, it is worth mentioning that this weakness is not found only in Brazilian studies. A systematic review of food environment measurement found that less than 30 % of studies published up to 2015 reported the validity and reliability of the measures(Reference Lytle and Sokol6). Therefore, it is worth highlighting the relevance of the development of the Audit-NOVA(Reference Borges and Jaime24), a reliable instrument to assess the food environment of consumers in Brazil based on the NOVA classification system(Reference Monteiro, Cannon and Levy32) and the recommendations of the Brazilian Dietary Guidelines(33).
More than half of the studies analysed in the present review did not present a formal definition of the food environment that had been underpinned by any existing conceptual models, nor was their design based on any of them. To some extent, this may imply that study design in this field is still incipient and may have repercussions on the conception of procedures for measuring food environments. Among those which relied on a model, most were based on that of Glanz et al.(Reference Glanz, Sallis and Saelens14). This is due to the fact that it is one of the first conceptual models published, and its approach is researcher-friendly. Also, it is compatible with the NEMS as a measurement instrument and with instruments developed on the basis of NEMS, for example, the ESAO(Reference Duran, Lock and Latorre22). It is certainly important to adopt conceptual models in future studies, especially considering the important advances found in models proposed more recently, for example, the inclusion of sustainability and the clarification of the informal market(Reference Downs, Ahmed and Fanzo4), the recognition of the interconnection between different food environments(Reference Espinoza, Egaña and Masferrer34), the in-depth description of the constituent elements of organisational environments(Reference Castro and Canella35), and the recognition of the material impact of digital environments on physical environments(Reference Granheim15).
Despite the evaluation of the quality of the studies is not expected in scoping reviews, the limitations pointed out by authors and recognised in the peer review process were mapped in other to dialogue with the quality assessment but mainly to contribute with elements that can influence the research agenda and the planning of new studies in the field. Limitations of food environment data, as pointed out by authors, include the possibility of bias in data collection (e.g. owing to the use of non-validated questionnaires) and the use of non-representative data (e.g. resulting from the use of convenience samples for the population), as well as the use of secondary data as a source of food environment data.
If, on the one hand, data not particularly collected for use in scientific research may not have important information, on the other hand, such data often have a greater scope, even different or additional information, and, in some cases, are representative of the context of analysis. This is less common in studies with primary data(Reference Menezes, de Matos and de Pina36,Reference Rocha, Carmo and Jardim37) . Furthermore, much of the Brazilian public administrative data, at national and local levels, is open; therefore, it can be more readily used for the conduction of different types of studies. In this sense, this type of information source, which is available in Brazil, a low- and middle-income country, is particularly relevant. It is crucial to expand and improve the content and quality of these databases, not only for administrative purposes but also to promote the advancement of research on the food environment in Brazil. There should be further analyses of the validity of secondary databases. For places that have small territories, for example, urban areas of inland towns, direct observation can be an alternative for the validation of secondary databases, and they could also be the gold standard for the collection of food environment data(Reference Lucan38). In addition, data can be validated using two secondary databases, and the discrepancy between them could be evaluated through direct observation in places with small territories, or through virtual conferencing, as is the case of the Brazilian study by Rocha et al.(Reference Rocha, Carmo and Jardim37), or using virtual tools that allow the visualisation of streets, for example, Google Street View(Reference Lucan38–Reference Rundle, Bader and Richards41).
A strong point of this review is that the search strategy did not use terms restricted to the jargon of a specific conceptual model; therefore, the researchers could identify studies based on different concepts and terminologies of the food environment. As for limitations, some authors suggest that the search strategy of a scoping review should be comprehensive in order to identify both published evidence and grey literature because unpublished studies are potentially relevant(Reference Peters, Godfrey and Khalil42). However, this is not a requirement of the PRISMA-ScR guidelines(Reference Tricco, Lillie and Zarin13), and a decision was made for the present review to focus on published and peer-reviewed articles. In the absence of a basis for registering scoping review protocols, the existing alternative is to publish the protocol as a scientific article. However, only a limited number of journals accept this publication format. The present researchers chose not to do so, but it should be noted that this is also not a PRISMA-ScR prerequisite(Reference Tricco, Lillie and Zarin13).
We expect this scoping review contributes to the discussion about the need for diversity in the research. Different from reviews conducted by North Global researchers, it has been observed a significant potential for research from Latin American countries(Reference Pérez-Ferrer, Auchincloss and de Menezes12) and the production of knowledge with varied perspectives, not only replications of studies from high-income countries, can be strategic to change and tailored the research agenda, but also public policies.
Conceptual models developed by researchers from countries like Chile(Reference Caspi, Sorensen and Subramanian5) and Brazil(Reference Castro and Canella35) can inspire news studies on food environments through their application and the development of others, specific for some realities or covering some lacks. An interesting example of a Global South initiative was the establishment of The Africa Food Environment Research Network (FERN), with the following objectives: ‘(1) building research capacity for innovative food environment research in Africa; (2) improving South–South and South–North partnerships to stimulate robust food environment research and monitoring in Africa; and (3) sustaining dialogue and focusing priorities around current and future needs for enhanced food environment research and monitoring in Africa’(Reference Tandoh, Aryeetey and Agyemang43). Despite all of this, the research conducted in and the researchers based on low- and middle-income countries and the Global South should be valued and received adequate funding to minimise global inequalities.
Conclusion
Literature on the food environment in Brazil has expanded in recent years, as a sign of growing recognition of the potential impact of publishing research information on food practices and human health. The present scoping review mapped this emerging scientific research in the country, mainly available in English, identifying the concentration of the cross-sectional studies in the richest region, conducted by researchers from a few universities and focusing on the community food environment.
The review has the potential to contribute to the work of researchers by pointing out particular gaps, for example, to conduct studies on the food environment in the Brazilian countryside, to support the formulation of research questions in conceptual models, to use valid and reliable instruments to collect primary data, and to recognise the importance of conducting more longitudinal, interventional and qualitative studies. The consolidation and advancement of this research agenda can potentially provide further insights into food environments, their configuration in low- and middle-income countries, and their influence on food practices and health outcomes, as well as into the formulation of interventions and better management of public policies.
Acknowledgements
Acknowledgements: National Council for Scientific and Technological Development (CNPq–Research Productivity fellow [312979/2021-5; 311475/2021-3]). Financial support: Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro (FAPERJ) (process number E-26/202.667/2018). Authorship: L.L.M. made substantial contributions to the conception or design of the work, participated in the interpretation of data for the work and drafted the article; L.L.R. and L.V.B. made substantial contributions to the conception or design of the work, participated in the acquisition, analysis and interpretation of data for the work and revised it critically for important intellectual content; M.C.M. and P.C.P.C.J. made substantial contributions to the conception or design of the work, participated in the interpretation of data for the work and revised it critically for important intellectual content; A.O.C., L.O.C., I.R.R.C., P.M.H., M.C.P. and M.B.V. participated in the interpretation of data for the work and revised it critically for important intellectual content; D.S.C. made substantial contributions to the conception or design of the work, participated in the interpretation of data for the work and revised it critically for important intellectual content. All authors gave final approval of the version to be published. Ethics of human subject participation: None.
Conflict of interest:
There are no conflicts of interest.
Supplementary material
For supplementary material accompanying this paper visit https://doi.org/10.1017/S1368980023000836