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Lifestyle behaviors and associated factors among individuals with diabetes in Brazil: a latent class analysis approach

Comportamentos de estilo de vida e fatores associados entre indivíduos portadores de diabetes no Brasil: uma abordagem com análise de classes latentes

Abstract

The purpose of the cross-sectional study was to identify patterns of modifiable lifestyle behaviors and examine the relationship between sociodemographic characteristics and distinct lifestyle behaviors. The data were gathered from the National Health Survey 2019, a study that included adults with diabetes. Four domains of lifestyle behaviors were used to define these behaviors: smoking, alcohol consumption, physical activity, and diet. The association between patterns of lifestyle behaviors and variables of interest was assessed using multinomial regression analysis. The three lifestyle patterns identified were: Class 1, referred to as “unhealthy diet,” comprised 17.0% of the sample and was characterized by unhealthy eating habits; Class 2 (less active and insufficient fruit and vegetable intake) represented 71.2% of the sample; Class 3 referred to as “low risk” (11.8%) is characterized by a lower probability of engaging in most risky behaviors. A person over 45 years of age with little or no education and no health care coverage was less likely to be a member of Class 1. Male individuals who do not attend a doctor regularly exhibited more chances of belonging to Class 2. Mixed-race individuals aged 45 years or more with a low level of education have a lower chance of belonging to this class.

Key words:
Health behavior; Latent class analysis; Diabetes mellitus; Health surveys

Resumo

Neste estudo de caráter transversal objetivou-se identificar os padrões de comportamento de estilo de vida e sua associação com características sociodemográficas. Utilizou-se como base de dados a Pesquisa Nacional de Saúde de 2019, com adultos (≥ 18 anos) diabéticos. Os padrões de saúde foram definidos pela Análise de Classes Latentes em quatro domínios: tabagismo, consumo de bebidas alcoólicas, atividade física e alimentação. Foi aplicada análise de regressão multinominal para identificar a associação entre os padrões de comportamento e as variáveis sociodemográficas de interesse. Identificou-se três padrões de comportamento: a Classe 1 corresponde a 17% da amostra e compreende indivíduos com maior probabilidade de comportamentos de risco ligados à alimentação; a Classe 2 (baixos nível de atividade física e consumo de frutas e hortaliças) compreende 71,2% da amostra; e a Classe 3 (11,8% da população) reúne os indivíduos com menor chance de desenvolver comportamentos de risco. Indivíduos com 45 anos ou mais, com baixa escolaridade e sem plano de saúde têm menos chances de pertencer à Classe 1. Homens, que não fazem visitas regulares ao médico têm maiores chances de pertencer à Classe 2, bem como aqueles com 45 anos ou mais, com baixa escolaridade.

Palavras-chave:
Comportamento de saúde; Análise de classes latentes; Diabetes mellitus; Inquéritos de saúde

Introduction

Global health challenges are currently affecting the majority of the population. It is noteworthy that chronic non-communicable diseases (NCDs) are becoming increasingly prevalent, such as diabetes mellitus (DM), cardiovascular disease (CVD), cancer, and respiratory disease, are regarded worldwide as the leading causes of death11 Pan American Health Organization (PAHO). Dez ameaças à saúde que a OMS combaterá em 2019 [Internet]. [acessado 2022 fev 15]. 2019. Disponível em: https://www.paho.org/bra/index.php?option=com_content&view=article&id=5848:dez-ameacas-a-saude-que-a-oms-combatera-em-2019&Itemid=875
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. There were 451 million diabetics worldwide in 2017, based on the International Diabetes Federation’s estimate22 Cho NH, Shaw JE, Karuranga S, Huang Y, Fernandes JDR, Ohlrogge AW, Malanda B. IDF Diabetes Atlas: global estimates of diabetes prevalence for 2017 and projections for 2045. Diabetes Res Clin Pract 2018; 138:271-281.. These figures are expected to increase to 693 million by 204522 Cho NH, Shaw JE, Karuranga S, Huang Y, Fernandes JDR, Ohlrogge AW, Malanda B. IDF Diabetes Atlas: global estimates of diabetes prevalence for 2017 and projections for 2045. Diabetes Res Clin Pract 2018; 138:271-281.. Currently, 70% of those with diabetes live in low- and middle-income countries, and the number of people with diabetes will more than double in these countries over the next 20 years33 Blas E, Kurup AS. Equity, social determinants and public health programmes. Geneva: World Health Organization; 2010.,44 GBD 2015 Eastern Mediterranean Region Diabetes and Chronic Kidney Disease Collaborators. Diabetes mellitus and chronic kidney disease in the Eastern Mediterranean Region: findings from the Global Burden of Disease 2015 study. Int J Public Health 2018; 63(Suppl. 1):177-186.. These estimates are worrying as diabetes was responsible for 294,203 deaths in Brazil between 1996 and 201155 Schmidt MI, Duncan BB, Ishitani L, Conceição Franco G, de Abreu DM, Lana GC, França E. Trends in mortality due to diabetes in Brazil, 1996-2011. Diabetol Metab Syndr 2015; 7:109..

The issue of diabetes is not only one of health but also of economics. People with diabetes are predominantly middle-aged and are at the top of their professional and economic careers66 Centers for Disease Control and Prevention. The power of prevention: chronic disease... the public health challenge of the 21st century [Internet]. 2009. [cited 2022 fev 10]. Available from: http://www.cdc.gov/chronicdisease/pdf/2009-power-of-prevention.pdf
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, and its complications can result in disability and premature death in individuals with diabetes, causing substantial healthcare system costs77 Zheng Y, Ley SH, Hu FB. Global aetiology and epidemiology of type 2 diabetes mellitus and its complications. Nat Rev Endocrinol 2018; 14(2):88-98.. Diabetes has a multifactorial etiology involving genetic and modifiable lifestyle factors. The main behavioral risk factors for the onset of NCDs are excessive consumption of alcoholic beverages, smoking, physical inactivity, and an unhealthy diet88 Malta DC, Bernal RTI, Vieira-Neto E, Curci KA, Pasinato MTM, Lisbôa RM, Cachapuz RF, Coelho KSC. Tendências de fatores de risco e proteção de doenças crônicas não transmissíveis na população com planos de saúde no Brasil de 2008 a 2015. Rev Bras Epidemiol 2018; 21(Suppl. 1):e180020.,99 Melo SPDSC, Cesse EAP, Lira PIC, Rissin A, Cruz RSBLC, Batista Filho M. Doenças crônicas não transmissíveis e fatores associados em adultos numa área urbana de pobreza do Nordeste brasileiro. Cien Saude Colet 2019; 24(8):3159-3168.. Studies have also revealed that changes in lifestyle patterns through the adoption of health behaviors can effectively improve an individual’s health conditions or alleviate symptoms and complications of chronic diseases, such as diabetes1010 Myers J, Atwood JE, Froelicher V. Active lifestyle and diabetes. Circulation 2003; 107(19): 2392-2394..

Health behaviors do not occur in isolation, and there is often synergy between them1111 Kremers SPJ. Theory and practice in the study of influences on energy balance-related behaviors. Patient Educ Couns 2010; 79(3):291-298., so it is pertinent to investigate the combined occurrence of these behaviors to better predict an individual’s overall healthy lifestyle1212 Dodd LJ, Al-Nakeeb Y, Nevill A, Forshaw MJ. Lifestyle risk factors of students: a cluster analytical approach. Prev Med 2010; 51(1):73-77.,1313 Leech RM, McNaughton SA, Timperio A. Clustering of children's obesity-related behaviours: associations with sociodemographic indicators. Eur J Clin Nutr 2014; 68(5):623-628.. Research on the clustering of health behaviors has increased recently since it is a potential tool for organizing individuals into mutually exclusive groups by considering similarities in characteristics and behaviors1414 Wang X, Chen J, Liu X, Gao F, Zhao H, Han D, Jing X, Liu Y, Cui Z, Li C, Ma J. Identifying patterns of lifestyle behaviors among people with type 2 diabetes in Tianjin, China: a latent class analysis. Diabetes Ther 2017; 8(6):1379-1392.

15 Liberali R, Del Castanhel F, Kupek E, Assis MAA. Latent class analysis of lifestyle risk factors and association with overweight and/or obesity in children and adolescents: systematic review. Child Obes 2021; 17(1):2-15.
-1616 Leventhal AM, Huh J, Dunton GF. Clustering of modifiable biobehavioral risk factors for chronic disease in US adults: a latent class analysis. Public Health 2014; 134(6):331-338., allowing the verification of which behaviors coexist among individuals. Researchers have identified clustering patterns and the co-occurrence of negative and positive health-related behaviors through observational studies1616 Leventhal AM, Huh J, Dunton GF. Clustering of modifiable biobehavioral risk factors for chronic disease in US adults: a latent class analysis. Public Health 2014; 134(6):331-338.

17 Saint Onge JM, Krueger PM. Health lifestyle behaviors among U.S. adults. SSM Popul. Health 2017; 3:89-98.
-1818 Tian WH, Tien JJ. Health behaviors and health status among middle-aged and older adults with chronic diseases in Taiwan. Int J Environ Res Public Health 2020; 17(19):7196.. In order to make interventions more targeted and customized, it is essential to be able to identify subgroups with similar behaviors among people with diabetes.

Nevertheless, evidence from diabetes studies1919 Jeppesen C, Bjerregaard P, Jørgensen ME. Dietary patterns in Greenland and their relationship with type 2 diabetes mellitus and glucose intolerance. Public Health Nutr. 2014; 17(2):462-470.,2020 Gariepy G, Malla A, Wang J, Messier L, Strychar I, Lesage A, Schmitz N. Types of smokers in a community sample of individuals with Type 2 diabetes: a latent class analysis. Diabet Med 2012; 29(5):586-592. indicates that lifestyle behaviors are often examined separately. Additionally, there is a lack of evidence regarding clusters of health-related behaviors among people with diabetes living in low-, lower-middle-, and upper-middle-income countries, and it is assumed that health behavior patterns are closely associated with demographics. We used latent class analysis (LCA) on a nationally representative sample dataset in order to: (1) identify the patterns of modifiable lifestyle behaviors (physical activity, sedentary behavior, diet, smoking, and drinking); (2) assess the relationship between sociodemographic characteristics and distinct patterns, thereby identifying the most vulnerable subgroups of patients.

Methods

Data source and participants

We obtained data from the National Health Survey (PNS - Portuguese acronym for Pesquisa Nacional de Saúde), a population-based household survey conducted in Brazil in 2019, by the Brazilian Institute of Geography and Statistics (IBGE - Portuguese acronym for Instituto Brasileiro de Geografia e Estatística) in partnership with the Ministry of Health (MH) and the Oswaldo Cruz Foundation (Fiocruz - Portuguese abbreviation for Fundação Oswaldo Cruz)2121 Instituto Brasileiro de Geografia e Estatística (IBGE). Pesquisa Nacional de Saúde 2019: Percepção do estado de saúde, estilos de vida, doenças crônicas e saúde bucal. Rio de Janeiro: IBGE; 2020.. The 2019 PNS included people aged 15 years or older residing in private households throughout the country. Using a three-stage cluster sampling technique, census sectors were used as the primary unit, households were used as the secondary unit, and the adults of each household were selected as tertiary units to complete the PNS questionnaire. There are more details regarding the sample available elsewhere2121 Instituto Brasileiro de Geografia e Estatística (IBGE). Pesquisa Nacional de Saúde 2019: Percepção do estado de saúde, estilos de vida, doenças crônicas e saúde bucal. Rio de Janeiro: IBGE; 2020..

We included individuals over the age of 18 who answered positively to the question on the survey questionnaire, “Has your doctor already diagnosed you with diabetes?” (n = 7,358), as part of this study (n = 88,531). A total of 7,327 individuals were included in this study after excluding pregnant women (n = 31).

Study variables

We constructed the LCA based on the patterns of lifestyle behaviors that include the following ten modifiable lifestyle risk factors, all of them as dichotomous indicators: (i) current smoking; (ii) binge drinking (more than five doses on a single occasion)11 Pan American Health Organization (PAHO). Dez ameaças à saúde que a OMS combaterá em 2019 [Internet]. [acessado 2022 fev 15]. 2019. Disponível em: https://www.paho.org/bra/index.php?option=com_content&view=article&id=5848:dez-ameacas-a-saude-que-a-oms-combatera-em-2019&Itemid=875
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; (iii) physically inactive (< 150 minutes of light or moderate activity/week)2222 World Health Organization (WHO). Global status report on non-communicable diseases 2010. Geneva: WHO; 2011.; (iv) excessive time spent watching television (> 2 hours/day)2323 Council on Communications and Media. Children, adolescents, and the media. Pediatrics 2013; 132(5):958-961.; (v) excessive time spent on the computer (> 2 hours/day)2424 Thomée S, Härenstam A, Hagberg M. Computer use and stress, sleep disturbances, and symptoms of depression among young adults--a prospective cohort study. BMC Psychiatry 2012; 12:176.; (vi) insufficient intake of fruits/natural juices and vegetables (< 25 times a week/< 5 servings a day)2525 World Health Organization (WHO). Healthy Diet Fact Sheet N394. Geneva: WHO; 2018.; (vii) regular consumption of sweets (≥ 5 days/week)2626 Brasil. Ministério da Saúde (MS). Vigitel Brasil 2019: vigilância de fatores de risco e proteção para doenças crônicas por inquérito telefônico: estimativas sobre frequência e distribuição sociodemográfica de fatores de risco e proteção para doenças crônicas nas capitais dos 26 estados brasileiros. Brasília: MS; 2020.; (viii) overconsumption of red meat (> 3 times/week)2727 World Health Organization (WHO). A healthy diet sustainably produced: information sheet. Geneva: WHO; 2018.; (ix) regular consumption of soft drinks (≥ 5 times/week); and (x) regular consumption of artificial juices (≥ 5 times/week)2626 Brasil. Ministério da Saúde (MS). Vigitel Brasil 2019: vigilância de fatores de risco e proteção para doenças crônicas por inquérito telefônico: estimativas sobre frequência e distribuição sociodemográfica de fatores de risco e proteção para doenças crônicas nas capitais dos 26 estados brasileiros. Brasília: MS; 2020..

Sociodemographic variables were: sex (male/female), age group (18-24 years; 25-34 years; 35-44 years; 45-54 years; 55-64 years; ≥ 65 years), race/color (white, black, mixed race and others), schooling (illiterate and incomplete elementary school level, complete elementary and incomplete high school level, complete high school and incomplete higher education level, complete higher education level), socioeconomic classification (high: A and B1; middle: B2 and C1; and low: C2, D, and E)2828 Associação Brasileira de Empresas de Pesquisa (ABEP). Critério Brasil de classificação econômica. São Paulo: ABEP; 2020., self-perceived health (very bad/bad/regular, and good/very good), lives with a partner (yes/no), marital status (married, separated/divorced/widower, and single), regular visits to the doctor (yes/ no) and health care insurance (yes/no).

Latent class analysis (LCA)

The binary latent class indicators were created to reflect existing health recommendations and included ten items representing multiple dimensions of lifestyle behaviors. As part of the LCA, we first identified heterogeneous groups of health behaviors among individuals with diabetes to examine lifestyle behavior clusters (outcome variable) patterns. We intended to emphasize the importance of health behavior patterns among heterogeneous individuals by analyzing clusters of health behaviors rather than single behaviors2929 Graf S, Cecchini M. Identifying patterns of unhealthy diet and physical activity in four countries of the Americas: a latent class analysis. Rev Panam Salud Publica 2018; 42:e56.. The LCA is used to identify latent classes within a population based on individual responses to discrete manifest variables (observed indicators). This technique has been widely adopted in medical studies and health research. In our study, we derived mutually exclusive groups of individuals whose discrete manifest responses to health behaviors were minimal within groups and whose differences between groups were maximal. LCA examines unobserved heterogeneity, mitigating the possibility of biased estimates due to heterogeneity in conventional regression. A person-centered approach reveals the smallest differences in health behaviors among individuals within the same class. LCA is based on a finite mixture model3030 Lee JW, Chung H. Latent class analysis with multiple latent group variables. Commun Stat Appl Methods 2017; 24:173-191..

To classify the latent classes of patterns of lifestyle behaviors, we used a series of model fit criteria, including the Akaike information criterion (AIC), conditional Akaike information criterion (cAIC), and Bayesian or adjusted Bayesian information criterion (BIC/aBIC). In order to compare the model fit between sequential classes, we used the Vuong-Lo-Mendell-Rubin likelihood ratio test (LMR).

Data analyses

We calculated the relative frequencies and the 95% confidence intervals (CI) for the descriptive analysis, considering the sample’s complex design. Using a multinomial logistic regression model with Class 3 as the reference category, we examined the associations between each latent class of lifestyle behaviors (outcome variable), sociodemographic variables, and other variables of interest (independent variables). All sociodemographic variables and the time since the disease diagnosis were considered in the multivariate model. LCA analysis was performed using the Statistical Program R 4.1.1, package poLCA. SAS On-Demand for Academics was used for descriptive analysis and multinomial logistic regression. SAS survey procedures (proc surveyfreq, proc surveymeans, proc surveylogistic) were used to account for the complex sampling design of the study. The significance level of the study was 5%.

The PNS received approval from the National Research Ethics Commission (CONEP - Portuguese abbreviation for Comissão Nacional de Ética em Pesquisa) of the National Health Council (CNS - Portuguese acronym for Conselho Nacional de Saúde). Respondents who were part of the sample agreed to participate in the study by signing the Term of Free and Informed Consent.

Results

The sociodemographic characteristics of the sample are shown in Table 1. Most respondents were women aged 65 years or older, with white skin color, illiterate or with an incomplete elementary level of education, low socioeconomic status (most belong to classes C2, D, and E), married, or living with a partner. Most individuals with diabetes reported having a negative self-perception of their health, regularly visiting the doctor, not having a private health insurance plan, and not having a private health insurance plan.

Table 1
Sociodemographic characteristics of individuals with diabetes in Brazil. National Health Survey, 2019.

According to the distribution of individuals with diabetes according to lifestyle variables (Table 2), almost 90% of those with diabetes were non-smokers and did not consume excessive amounts of alcohol. Almost 80% of respondents reported practicing less than 150 minutes of physical activity per week. Approximately half spent more than two hours watching television each day, and only 20% spent more than two hours on the computer each day. Most individuals with diabetes (83.1%) reported consuming less than 25 servings of FVs weekly, eating red meat three times a week or less (65.3%), sweets (cakes, pies, chocolates, candies, cookies, or sweet biscuits) less than five times per week (91.5%), and sweetened beverages (soft drinks and artificial juices, respectively) less than five times per week (93.6% and 90.3%, respectively).

Table 2
Distribution of individuals with diabetes and 95%CI according to lifestyle variables. National Health Survey, 2019.

According to the latent class model fit criterion, small AIC or adjusted BIC values and large entropy values indicate a good model fit index. Also, we used the LMR approach to compare the improvements in model fit between sequential classes; from one up to six classes, we found significant test statistics, indicating that the model with K classes is superior to the model with K-1 latent classes. Based on the model fit indices (Table 3) and parsimony (i.e., interpretability), we identified three latent classes of patterns of lifestyle behaviors, each with notable characteristics (Figure 1). The lifestyle behaviors of Class 1 corresponded to 17.0% of the population (n = 1,249 individuals) and comprised individuals with a higher probability of engaging in the five risk behaviors related to eating. There were 5 215 individuals in Class 2 (71.2% of the population) who were more likely to engage in risk behaviors related to their low leisure-time physical activity and low intake of FVs. Class 3 represented 11.8% of the sample (863 individuals) and is characterized by the lower probability of engaging in most risk behaviors, and that is why it was used as a reference for comparisons.

Table 3
Model fit statistics of LCA models (n = 7,327).

Figure 1
Item-response probabilities of lifestyle behaviors for the three-class model: the probability of endorsing an item given a latent class. Item-response probabilities are the probabilities of participants responding to different items. National Health Survey, 2019.

Almost 90% of the respondents in Class 1 reported consuming insufficient FVs, and 18% reported excessive consumption of red meat, artificial juices, soft drinks, and sweets, respectively. In Class 2, 90.7% of respondents reported a low level of leisure-time physical activity, whereas 90.4% reported a low intake of FVs. In Class 3, the probability of adopting all risk behaviors was low compared to the other classes, and none of the respondents reported regular consumption of artificial juices and soft drinks.

Table 4 presents the odds ratio (OR) for the three latent classes of patterns of lifestyle behaviors associated with sociodemographic and other variables of interest estimated by a multinomial logistic model. Comparing Classes 1 and 3, we observed that individuals aged 45 years or over were less likely to adopt risky eating behaviors than those aged between 18 and 24. Similarly, those with a lower level of education (OR: 0.30; 95%CI: 0.19-0.48) and without health care insurance (OR: 0.55; 95%CI: 0.41-0.75) were less likely to adopt an unhealthy diet compared to their counterparts.

Table 4
Association analysis between variables of interest and patterns of lifestyle behaviors among individuals with diabetes. National Health Survey, 2019.

Comparing Classes 2 and 3, we identified that male individuals had more chance (OR: 2.03; 95%CI: 1.59-2.58) of being physically inactive with an insufficient intake of FVs than women. Also, the individuals who did not visit a doctor regularly (OR: 1.46; 95%CI: 1.11-1.92) tended to present the same behavior. In contrast, mixed-race individuals aged 35 years or more (OR: 0.75; 95%CI: 0.59-0.96) with a low level of education (OR: 0.54; 95%CI: 0.37-0.79) had fewer chances of belonging to Class 2.

Discussion

This is the first study to identify lifestyle behavior among individuals with diabetes in Latin America, particularly Brazil. The study identifies lifestyle behaviors using the LCA method, an innovative approach to exploratory analysis. The results of our study indicated that three distinct patterns of lifestyle behaviors are associated with risk patterns of lifestyle behaviors. These patterns include sex, education, age, race, and regular doctor visits. Considering these results, it may be possible to design specific intervention strategies for high-risk subgroups.

Class 1 (unhealthy diet) comprised 17% of the sample and showed the highest probability of items for unhealthy eating behaviors than other groups. Although most participants did not adopt this pattern, this result is worrying since individuals classified in this group reported regularly consuming foods rich in sugar, such as sweets and sugar-sweetened beverages (artificial juices and soft drinks). The consumption of FVs, foods considered healthy sources of fiber, was also irregular. Adopting healthy eating habits, including the regular consumption of FVs, whole grains, lean meats, and plant-derived proteins, is essential for preventing, treating, and controlling NCDs2525 World Health Organization (WHO). Healthy Diet Fact Sheet N394. Geneva: WHO; 2018.,3131 Neale EP, Batterham MJ, Tapsell LC. Consumption of a healthy dietary pattern results in significant reductions in C-reactive protein levels in adults: a meta-analysis. Nutr Res 2016; 36(5):391-401.,3232 Aune D, Giovannucci E, Boffetta P, Fadnes LT, Keum N, Norat T, Greenwood DC, Riboli E, Vatten LJ, Tonstad S. Fruit and vegetable intake and the risk of cardiovascular disease, total cancer and all-cause mortality: a systematic review and dose-response meta-analysis of prospective studies. Int J Epidemiol 2017; 46(3):1029-1056.. In the same way, limiting the consumption of sweetened foods is the main recommendation for DM patients, representing a direct relationship with blood glucose control.

Several studies1616 Leventhal AM, Huh J, Dunton GF. Clustering of modifiable biobehavioral risk factors for chronic disease in US adults: a latent class analysis. Public Health 2014; 134(6):331-338.

17 Saint Onge JM, Krueger PM. Health lifestyle behaviors among U.S. adults. SSM Popul. Health 2017; 3:89-98.
-1818 Tian WH, Tien JJ. Health behaviors and health status among middle-aged and older adults with chronic diseases in Taiwan. Int J Environ Res Public Health 2020; 17(19):7196.,2020 Gariepy G, Malla A, Wang J, Messier L, Strychar I, Lesage A, Schmitz N. Types of smokers in a community sample of individuals with Type 2 diabetes: a latent class analysis. Diabet Med 2012; 29(5):586-592. have analyzed lifestyle behavior patterns among adults in recent years. Nevertheless, these studies are conducted in different populations, use different analytical methods, and employ different lifestyle behaviors, making comparing results across studies difficult. According to our study, individuals over 45 and those with a low level of education were less prevalent in Class 1. A study with American adults3333 Fleary SA, Nigg CR. Trends in health behavior patterns among U.S. adults, 2003-2015. Ann Behav Med 2019; 53(1):1-15. who used the LCA to identify behavior patterns has shown that younger adults are more likely to be in the non-healthy groups. As a result, this may significantly impact future generations’ health since their children are highly likely to adopt similar lifestyle behaviors. In addition, they are more prone to chronic diseases as well. Efforts should be made to reverse this trend by targeting young adults who have a direct impact on children’s health as well as children and adolescents.

Some studies1616 Leventhal AM, Huh J, Dunton GF. Clustering of modifiable biobehavioral risk factors for chronic disease in US adults: a latent class analysis. Public Health 2014; 134(6):331-338.,3333 Fleary SA, Nigg CR. Trends in health behavior patterns among U.S. adults, 2003-2015. Ann Behav Med 2019; 53(1):1-15.

34 Jiang X, Jiang H, Li M, Lu Y, Liu K, Sun X. The mediating role of self-efficacy in shaping self-management behaviors among adults with type 2 diabetes. Worldviews Evid Based Nurs 2019; 16(2):151-160.
-3535 Milo RB, Connelly CD. Predictors of glycemic management among patients with type 2 diabetes. J Clin Nurs 2019; 28(9-10):1737-1744. have found that high levels of education facilitate compliance with self-management of diabetes, in contrast to our data. Our results may be explained by the fact that individuals with a low level of education engage in fewer risky eating behaviors. It is because of the difficulty of accessing financial resources since education can be considered a proxy for income. In addition, our findings are consistent with qualitative research among diabetes patients, which found that respondents from low socioeconomic backgrounds followed self-management behavior (SMB) instructions strictly and almost literally. In contrast, those from higher socioeconomic backgrounds interpreted SMB instructions relatively freely.

Class 2, the less active and insufficient FV intake group, was the most prevalent category (71.2%). Most individuals with diabetes reported not engaging in the recommended level of physical activity. This is a concern since adopting and maintaining physical activity is critical for blood glucose management and overall health in individuals with diabetes and prediabetes3737 Colberg SR, Sigal RJ, Yardley JE, Riddell MC, Dunstan DW, Dempsey PC, Horton ES, Castorino K, Tate DF. Physical activity/exercise and diabetes: a position statement of the American Diabetes Association. Diabetes Care 2016; 39(11):2065-2079.. Some authors have observed that exercise improves blood glucose control in type 2 diabetes, reduces cardiovascular risk factors, contributes to weight loss, and improves well-being3838 Chen L, Pei JH, Kuang J, Chen HM, Chen Z, Li ZW, Yang HZ. Effect of lifestyle intervention in patients with type 2 diabetes: a meta-analysis. Metabolism 2015; 64(2):338-347.,3939 Lin X, Zhang X, Guo J, Roberts CK, McKenzie S, Wu WC, Liu S, Song Y. Effects of exercise training on cardiorespiratory fitness and biomarkers of cardiometabolic health: a systematic review and meta-analysis of randomized controlled trials. J Am Heart Assoc 2015; 4(7):e002014.. Furthermore, regular exercise may prevent or delay type 2 diabetes development. Furthermore, optimal consumption of FVs has been identified as a protective factor against diabetes development and control4040 Schwingshackl L, Hoffmann G, Lampousi AM, Knüppel S, Iqbal K, Schwedhelm C, Bechthold A, Schlesinger S, Boeing H. Food groups and risk of type 2 diabetes mellitus: a systematic review and meta-analysis of prospective studies. Eur J Epidemiol 2017; 32(5):363-375.,4141 Li M, Fan Y, Zhang X, Hou W, Tang Z. Fruit and vegetable intake and risk of type 2 diabetes mellitus: meta-analysis of prospective cohort studies. BMJ Open 2014; 4(11):e005497.. Fiber content, shallow to moderate energy density, and a wide range of nutrients (e.g., potassium and vitamin C) and phytochemicals (e.g., polyphenols and carotenoids) are among the many health benefits provided by FVs4242 Padayachee A, Day L, Howell K, Gidley MJ. Complexity and health functionality of plant cell wall fibers from fruits and vegetables. Crit Rev Food Sci Nutr 2017; 57(1):59-81.,4343 Dreher ML. Whole fruits and fruit fiber emerging health effects. Nutrients 2018; 10(12):1833..

Men and individuals who do not regularly visit a doctor had more chance of belonging to Class 2 than their counterparts. Other previous studies have also reported higher male prevalence in more unhealthy clusters4444 Noble N, Paul C, Turon H, Oldmeadow C. Which modifiable health risk behaviours are related? A systematic review of the clustering of Smoking, Nutrition, Alcohol and Physical activity ('SNAP') health risk factors. Prev Med 2015; 81:16-41.,4545 Rabel M, Laxy M, Thorand B, Peters A, Schwettmann L, Mess F. Clustering of health-related behavior patterns and demographics. Results from the population-based KORA S4/F4 Cohort Study. Front Public Health 2019; 6:387.. In fact, men have a different self-care pattern than women. They seek fewer health services and, consequently, receive less guidance regarding the risks and consequences of inappropriate health behaviors related to NCDs4646 Gomes AP, Bierhals IO, Vieira LS, Soares ALG, Flores TR, Assunção MCF, Gonçalves H. Padrões alimentares de idosos e seus determinantes: estudo de base populacional no Sul do Brasil. Cien Saude Colet 2020; 25(6):1999-2008.,4747 Medeiros PA, Cembranel F, Figueiró TH, Souza BB, Antes DL, Silva DAS, Zanelatto C, d'Orsi E. Prevalência e simultaneidade de fatores de risco cardiovasculares em idosos participantes de um estudo de base populacional no Sul do Brasil. Rev Bras Epidemiol 2019; 22:e190064..

A recent study has shown that not making regular doctor visits increases the chance of Brazilians with diabetes not engaging in healthy behaviors independently of sex, age, schooling, and economic status4848 Dionato FAV, Nucci LB, Enes CC. Factors associated with non-adoption of healthy behavior among individuals with diabetes: a population-based study in Brazil. J Public Health (Oxf) 2023; 45(1):e114-e120.. Similar results were also observed among hypertensive individuals4949 Dionato FAV, Enes CC, Nucci LB. Factors associated with not adopting healthy behavior among hypertensive individuals: a population-based study in Brazil. J Hum Hypertens 2021; 35(8):718-725.. In contrast, mixed-race individuals aged 35 years or more, with a lower level of education, were less likely to belong to Class 2. There is a difference between our results and those in the literature regarding the educational level and color/race. One possible explanation could be that social desirability bias is present. As a result, participants may respond in a way that does not reflect their reality, adapting to guidance previously received. Additionally, many individuals who receive a diagnosis may begin to adopt healthier behaviors after following the guidelines provided by the health team.

Some limitations of the study should be mentioned. Firstly, all information on health behaviors is self-reported, and the nature of these data introduces the possibility of social desirability bias as the survey content is evident. However, gold standards or objective measures are less feasible and cost-prohibitive to collect in large population studies. Another limitation lies in the cross-sectional design of this study, as we can only provide a snapshot of the association between current lifestyle behaviors and other characteristics in individuals with diabetes. Additionally, we did not consider the complex sampling design in LCA, so results should be interpreted with caution due to possible underestimates of the associations between covariates and class membership5050 Vermunt, J. Latent class modeling with covariates: two improved three-step approaches. Political Analysis 2017; 18(4):450-469.. Finally, the behaviors evaluated in this study are not the only ones involved in the lifestyle concept. Behaviors such as hours of sleep, use of other drugs, and differences between types of physical activity, among others, were not considered in this study.

In this study, some limitations should be mentioned. First, all health behavior information was self-reported, and because of the survey content, there is a possibility of social desirability bias. In extensive population studies, however, gold standards and objective measures are less feasible and more expensive to collect. The cross-sectional design of this study presents another limitation since we can only provide a snapshot of the association between current lifestyle behaviors and other characteristics in individuals with diabetes. Moreover, the complex sampling design of LCA was not considered, so the results should be interpreted with caution due to the possibility of an underestimate of the associations between covariates and class membership5050 Vermunt, J. Latent class modeling with covariates: two improved three-step approaches. Political Analysis 2017; 18(4):450-469.. Furthermore, lifestyle is not limited to the behaviors examined in this study. We did not consider behaviors such as sleep hours, drug use, and differences between types of physical activity in this study.

Among the strengths of this study are the use of an innovative analysis model and the use of recent extensive population-based data. Future studies that include in their analysis other variables related to lifestyle that prioritize directly measured information and that do not only consider the individual’s self-perception may contribute to a better understanding of these patterns.

In a diabetic population, three groups have been identified based on lifestyle behavior factors. Individualized behavioral modification strategies should be tailored to high-risk groups based on their demographic and clinical characteristics. A lot still needs to be done to improve preventive health behaviors for specific high-risk groups. Moreover, disparities across demographic groups suggest that population-level interventions may not be as effective as anticipated and may not reach at-risk groups. As a result, some groups may benefit from more targeted interventions.

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Chief editors:

Romeu Gomes, Antônio Augusto Moura da Silva

Publication Dates

  • Publication in this collection
    07 July 2023
  • Date of issue
    July 2023

History

  • Received
    08 Apr 2022
  • Accepted
    21 Dec 2022
  • Published
    23 Dec 2022
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