Social inequalities between neighborhoods and cardiovascular disease: a multilevel analysis in a Latin American city

Desigualdades sociais entre vizinhanças e doenças cardiovasculares: análise multinível em uma cidade latino-americana

Mónica Serena Perner Marcio Alazraqui Leila D. Amorim About the authors

Abstract

Studies analyzing relations between cardiovascular diseases (CVDs) and environmental aspects in Latin American cities are relatively recent and limited, since most of them are conducted in high-income countries, analyzing mortality outcomes, and comprising large areas. This research focuses on adults with diabetes and/or hypertension under clinical follow-up who live in deprived areas. At the individual level we evaluated sociodemographic and cardiovascular risk factors from patient’s records, and at the neighborhood level, socioeconomic conditions from census data. A multilevel analysis was carried out to study CVD. More women than men were under clinical follow-up, but men had higher frequency, higher odds, and shorter time to CVD diagnosis. Multilevel analysis showed that residing in neighborhoods with worst socioeconomic conditions leads to higher odds of CVDs, even after controlling for individual variables: OR (CI95%) of CVD in quartile 2 (Q2) 3.9 (1.2-12.1); Q3 4.0 (1.3-12.3); Q4 2.3 (0.7-8.0) (vs. highest socioeconomic level quartile). Among individuals living in unequal contexts, we found differences in CVD, which makes visible inequalities within inequalities. Differences between women and men should be considered through a gender perspective.

Key words:
Cardiovascular diseases; Inequalities; Multilevel analysis; Urban health; Diabetes

Resumo

Os estudos que analisam as relações entre doenças cardiovasculares (DCVs) e aspectos ambientais em cidades latino-americanas são relativamente recentes e limitados. A maioria é realizada em países de alta renda analisando a mortalidade em grandes áreas. Esta investigação foca a população de adultos em acompanhamento clínico por diabetes e/ou hipertensão residentes em áreas carentes. No nível individual foram avaliados fatores sociodemográficos e de risco cardiovascular a partir dos prontuários médicos; e a partir de dados censitários, as condições socioeconômicas no nível da vizinhança. Mais mulheres do que homens estavam sob acompanhamento clínico, mas os homens apresentaram maior frequência, maior chance e menor tempo para diagnóstico de DCV. A análise multinível mostrou que residir em bairros com piores condições socioeconômicas leva a maiores chances de DCV, mesmo após o controle de variáveis ​​individuais. As OR (IC95%) de DCV foram: Q2 OR 3,9 (1,2-12,1); Q3 OR 4,0 (1,3-12,3); Q4 OR 2,3 (0,7-8,0) (referência: quartil de maior nível socioeconômico). Entre os indivíduos que vivem em contextos desiguais, encontramos diferenças nas DCV, mostrando desigualdades dentro das desigualdades. Diferenças entre homens e mulheres devem ser abordadas com uma perspectiva de gênero.

Palavras-chave:
Doenças cardiovasculares; Desigualdades; Análise multinível; Saúde urbana; Diabetes

Introduction

Disease and mortality burden of noncommunicable diseases, represented by cardiovascular diseases (CVDs), diabetes, cancer, chronic respiratory diseases, are increasing worldwide. In 2016, they represented 71% of world’s deaths, such that three out of four of these deaths occurred in low and middle-income countries, where the most premature deaths occurred11 NCD Countdown 2030 collaborators. NCD Countdown 2030: worldwide trends in non-communicable disease mortality and progress towards Sustainable Development Goal target 3.4. The Lancet 2018; 392(10152):1072-1088..

The literature based on general population points out that social and material deprivation are directly related to disease occurrence and inversely related to health status22 Barreto ML. Desigualdades en Salud: una perspectiva global. Cien Saude Colet 2017: 22(7):2097-2108.,33 Tang K, Rashid R, Godley J, Ghali WA. Association between subjective social status and cardiovascular disease and cardiovascular risk factors: a systematic review and meta-analysis. BMJ Open 2016; 6(3):e010137.. Different reviews show relations between socioeconomic conditions and CVDs in the general population33 Tang K, Rashid R, Godley J, Ghali WA. Association between subjective social status and cardiovascular disease and cardiovascular risk factors: a systematic review and meta-analysis. BMJ Open 2016; 6(3):e010137.,44 Miranda JJ, Barrientos-Gutiérrez T, Corvalan C, Hyder AA, Lazo-Porras M, Oni T, Wells JCK. Understanding the rise of cardiometabolic diseases in low- and middle-income countries. Nature Medicine 2019; 25(11):1667-1679., and also with diabetes55 Agardh E, Allebeck P, Hallqvist J, Moradi T, Sidorchuck A. Type 2 diabetes incidence and socio-economic position: a systematic review and meta-analysis. Int J Epidemiol 2011; 40(3):804-818.,66 Barnard-Kelly K, Chernavvsky D. Social inequality and diabetes: a commentary. Diabetes Ther 2020; 11(4):803-811. and hypertension77 Grotto I, Huerta M, Sharabi Y. Hypertension and socioeconomic status. Curr Opin Cardiol 2008; 23(4):335-339.. In recent years, several studies have shown that the effects of social inequities on health increased88 Abramo L, Cecchini S, Ullmann H. Addressing health inequalities in Latin America: the role of social. Cien Saude Colet 2020; 25(5):1588-1598.,99 Nijman J, Dennis Wei Y. Urban inequalities in the 21st century economy. Applied Geography 2020; 117(2):102188.. Particularly, there are many studies analyzing the occurrence of CVDs and their relationships to living in deprived neighborhoods or having low socioeconomic status1010 Chaikiat A, Li X, Bennet L, Sundquist K. Neighborhood deprivation and inequities in coronary heart disease among patients with diabetes mellitus: a multilevel study of 334,000 patients. Health Place 2012; 18(4):877-882.,1111 Foraker RE, Bush C, Greiner MA, Sims M, Henderson K, Smith S, Bidulescu A, Shoben AB, Hardy C, O'Brien E. Distribution of cardiovascular health by individual- and neighborhood-level socioeconomic status: findings from the Jackson Heart Study. Glob Heart 2019; 14(3):241-250..

Disparities in CVDs occurrence between women and men were also described focusing in two different aspects: sex differences due to the biological factors, and gender differences related to factors such as socioeconomic status, healthcare access, and levels of urbanization1212 Rosen SE, Henry S, Bond R, Pearte C, Mieres JH. Sex-specific disparities in risk factors for coronary heart disease. Curr Atheroscler Rep 2015; 17(49):48-59..

Even though there is a great interest in studying social inequalities effects on CVDs in high-income countries, this literature is scarce in Latin America, a region with income inequalities and a strong residential segregation within urban areas1313 Perner MS. Enfermedad cardiovascular en contextos de desigualdad [tesis]. Lanús: Universidad Nacional de Lanús 2019. Doctorado en Salud Colectiva.,1414 Allen L, Williams J, Townsend N, Mikkelsen B, Roberts N, Foster C, Wickramasinghe K. Socioeconomic status and non-communicable disease behavioral risk factors in low-income and lower-middle-income countries: a systematic review. The Lancet 2017; 5(3): E277-E289.. In addition, in Latin America, the region health information systems mainly provide data and allow studies at country or regional level, yielding averaged information which masks differences and homogenize results1515 Iñíguez Rojas L. Geografía y salud: temas y perspectivas en América Latina. Cad Saude Publica 1997; 14(4):701-711.,1616 Spinelli H, Urquía M, Bargalló ML, Alazraqui M. Equidad en salud: teoría y praxis. Seminarios Salud y Política Pública. 2002. [cited 2021 nov 11]. Available from: http://repositorio.cedes.org/handle/123456789/3874
http://repositorio.cedes.org/handle/1234...
.

To evaluate the relationships between chronic diseases and social inequalities, multilevel studies might be considered as an analytical approach. These models can potentially analyze factors from distinct hierarchical levels, such as from macro-economic to individual level. The general concept is that individuals interact with the social contexts to which they belong, meaning that individuals are influenced by social groups1717 Hox JJ. Applied multilevel analysis. TT-Publikaties. 1995. [cited 2021 nov 11]. Available from: http://joophox.net/publist/amaboek.pdf
http://joophox.net/publist/amaboek.pdf...
. Multilevel models integrate individuals in social groups, allowing the analysis of the combined effects of individual and group variables1818 Diez Roux AV. Genes, individuos, sociedad y epidemiología. In: Spinelli H, compilador. Salud Colectiva. Cultura, instituciones y subjetividad. Buenos Aires: Lugar Editorial; 2008. p. 71-82. while taking into account the data dependence structure due to the clustered design.

To study inequalities related to CVD in an urban city in a middle-income country from Latin America, we propose to simultaneously investigate the effects of individual and neighborhood level characteristics on CVD. We studied adults with diabetes and/or hypertension under clinical follow-up, searching for gender differences (through biological sex variable), and living conditions dissimilarities using multilevel models.

Methods

Study area

This study was conducted in Bariloche, a city located in the Argentinean North Patagonia, with a population of 113 112 according to 2010 census data1919 Instituto Nacional de Estadística y Censos de Argentina (INDEC). Base de datos RADATAM. 2013. [cited 2021 nov 11]. Available from: https://redatam.indec.gob.ar/argbin/RpWebEngine.exe/PortalAction?&MODE=MAIN&BASE=CPV2010B&MAIN=WebServerMain.inl&_ga=2.126142093.1060614443.1545933805-1570010036.1545933805
https://redatam.indec.gob.ar/argbin/RpWe...
. Its local economy is concentrated in tourism activities, with part of its population living in privileged socioeconomic and environmental conditions, and a large group in highly vulnerable conditions2020 Matossian B. División social del espacio residencial y migraciones. El caso de San Carlos de Bariloche, Argentina. Eure 2015; 41(124):163-184.. Public healthcare system is under the Province responsibility, locally established by the Bariloche Zone Hospital, and by 15 healthcare centers, of which 13 are scattered around different city zones and two in nearby towns. In Argentina, population who attend public healthcare system are those living under deprived living conditions, since it is prioritized to those who do not have health-insurance. Despite that, individuals with health-insurance can be attended in public healthcare system.

Design and population

A cross-sectional study with multilevel analysis was carried out. The studied population were adults (18 years or more) with diabetes and/or hypertension diagnosis under clinical follow-up in public healthcare centers from Bariloche. Data collection was done between 2014 and 2015, including patient’s variables (individual level) and neighborhoods variables (aggregated/clustered level). For the patient´s variables, data sources were medical records and hospital discharges. Medical records were collected from all patients with type 2 diabetes mellitus (hereinafter diabetes) and primary hypertension (hereinafter hypertension) attended in public healthcare centers in Bariloche. We excluded medical records for the patients with less than three appointments and for those with last primary care appointment before 2009.

To improve registry quality, a deterministic record linkage was done between the databases from healthcare centers and from all hospital discharges between 2005 and 2015. Hospital discharges were from the hospitalizations of the aforementioned patients in the local hospital. The information from the hospital discharges complement data on the patient’s health problems, diagnosis specificity, and omitted hospitalizations in medical records from healthcare centers.

To obtain neighborhoods level characteristics (aggregated/clustered level), block groups, which are census-defined areas with 200 to 400 households, built for census proposes1919 Instituto Nacional de Estadística y Censos de Argentina (INDEC). Base de datos RADATAM. 2013. [cited 2021 nov 11]. Available from: https://redatam.indec.gob.ar/argbin/RpWebEngine.exe/PortalAction?&MODE=MAIN&BASE=CPV2010B&MAIN=WebServerMain.inl&_ga=2.126142093.1060614443.1545933805-1570010036.1545933805
https://redatam.indec.gob.ar/argbin/RpWe...
were used as proxies for neighborhoods. Bariloche city has 160 block groups and 65 neighborhoods, thus some neighborhoods are formed by more than one block group. When neighborhoods included more than one block group, individuals were allocated to that block group that presented the most similar characteristics (belonging to the same quartile) according to two census variables: education and unmet basic needs. Block group codes were used to link individuals to their neighborhood’s characteristics (level 1 nested to level 2 units), through their address from the medical records.

Variables

The response variable is cardiovascular disease (CVD) diagnosis measured at the individual level (level 1) and defined as complications which have a vascular relationship with diabetes and/or hypertension: Cerebrovascular disease (10 ICD codes: I61, I63, I64), Coronary heart disease (10 ICD codes: I21, I22, I25). Other studies have studied both diseases as a combined outcome2121 Thomopoulos C, Parati G, Zanchetti A. Effects of blood pressure lowering on outcome incidence in hypertension: 4. Effects of various classes of antihypertensive drugs - overview and meta-analysis. J Hypertens 2014; 33(2):2296-2304.,2222 Struijs J, Baan CA, Schellevis FG, Westert GP, van den Bos GAM. Comorbidity in patients with diabetes mellitus: impact on medical health care utilization. BMC Health Serv Res 2006; 6:84..

Other individual level variables included: (i) socio-demographic characteristics, such as age (less than 55 years, between 56 and 64 years, 65 or more years), sex (women/men), immigrant status (born in other country: yes, no), (ii) socio-economic characteristics, including health insurance (yes, no), work (employee, services, domestic work, pensioner or retired), education (illiterate, primary incomplete, primary complete, secondary incomplete or more); (iii) cardiovascular risk factors, including BMI (body mass index = body/weight22 Barreto ML. Desigualdades en Salud: una perspectiva global. Cien Saude Colet 2017: 22(7):2097-2108.), bodyweight change (between beginning of the follow-up and last registered weight: Lost [+2 kg], maintained [within ± 2 kg], or increased [+2 kg]), diabetes (yes, no), hypertension (yes, no); smoking (no, current, former), alcoholism (no, actual or previous alcohol problems). We categorized age using three categories, which incorporates concepts related to the definition of premature CVD and differences between women and men. However, it is important to acknowledge that different cut points have been used in literature, particularly involving ages before 55 years-old and before 65 years-old2323 Lieb W, Song RJ, Vasan RS, Xanthakis V. Premature parental cardiovascular disease and subclinical disease burden in the offspring. J Am Heart Assoc 2020; 15(9):e015406.,2424 Sociedad Argentina de Hipertensión Arterial (SAHA), Sociedad Argentina de Cardiología (SAC), Federación Argentina de Cardiología (FAC). Consenso Argentino de Hipertensión Arterial. Buenos Aires: SAHA; 2018.,

The aggregated level (neighborhoods) socioeconomic characterization was done according to the proportion of households with unmet basic needs. This indicator measures the percentage of population with at least one of the following indicators: households with critical overcrowding, inconvenient housing units (tenancy piece, precarious households or other type), housing with inadequate services, households with school-age children not attending school, and households with high economic dependence (which have four or more individuals per working member, and the household head has low educational level)1919 Instituto Nacional de Estadística y Censos de Argentina (INDEC). Base de datos RADATAM. 2013. [cited 2021 nov 11]. Available from: https://redatam.indec.gob.ar/argbin/RpWebEngine.exe/PortalAction?&MODE=MAIN&BASE=CPV2010B&MAIN=WebServerMain.inl&_ga=2.126142093.1060614443.1545933805-1570010036.1545933805
https://redatam.indec.gob.ar/argbin/RpWe...
.

The complete dataset and codebook are available in the following link: https://data.scielo.org/dataset.xhtml?persistentId=doi:10.48331/scielodata.SYBBUJ.

Statistical analysis

Univariate and bivariate descriptive analyses were performed through frequency distributions for the variables. We computed the length (in years) between the diagnosis of CVD and the diagnosis of diabetes or hypertension (whichever had been diagnosed first). We used second-order Rao-Scot chi-square statistic to test the association between categorical variables due to the clustered structure of data, which leads to the violation of the assumption of independent observations.

Two indices were calculated to quantify the socioeconomic gradient in relative and absolute terms related to CVD. For absolute inequality we computed the slope index of inequality (SII), which represents the absolute difference in the predicted values of a health indicator (CVD in our case) between the values of the socioeconomic indicator rank (Unmeet Basic Needs), considering its entire distribution. For relative inequality, we computed the relative index of inequality (RII), using the same curve-fitting procedure as for the SII, but instead of calculating the difference between the fitted values, the RII is the ratio between the two2525 Barros AJ, Victora CG. Measuring coverage in MNCH: determining and interpreting inequalities in coverage of maternal, newborn, and child health interventions. PLoS Med 2013; 10(3):e1001390.,2626 International Center of Equity in Health. Tutorial: slope index of inequality. [cited 2021 nov 11]. Available from: https://www.youtube.com/watch?v=lH3eywxkTcc
https://www.youtube.com/watch?v=lH3eywxk...
. These indices were calculated both in the overall studied population, and separately for women and men.

Finally, multilevel logistic regression models were fitted. Both crude and adjusted OR (odds ratio) estimates (and corresponding 95% confidence intervals) are presented through different models: (i) ORs without adjustments (crude estimates) (model 1); (ii) ORs controlling for sociodemographic variables (model 2); (iii) ORs controlling for cardiovascular risk factors (model 3), and (iv) ORs controlling for all variables (model 4). Intraclass correlation coefficient (ICC) was calculated for each model2727 Merlo J, Chaix B, Ohlsson H, Beckman A, Johnell K, Hjerpe P, Rastam L, Larsen K. A brief conceptual tutorial of multilevel analysis in social epidemiology: using measures of clustering in multilevel logistic regression to investigate contextual phenomena. J Epidemiol Community Health 2006; 60(4):290-297.. Due to the high proportion of missing data for the socioeconomic individual level variables, a separate analysis was performed for the subset of individuals with complete data, following the same steps as used for the previous analyses. We conducted analysis with STATA version 15.0 and performed georeference with QGIS version 3.8.

Ethics

This research has been approved by the Ethical Commission from Hospital Zonal Bariloche and by the Ethic Research Commission from Lanus National University. Confidentiality of persons has been protected according to the Protection of Personal Data Law, No. 25,326, processing of Sensitive Data and the Statistical Secrecy Law, No. 17.622.

Results

A total of 820 individuals were studied in 36 neighborhoods, with an average of 22.8 individuals (SD = 17.8) per neighborhood. 43.5% (357) of the individuals were admitted in the local hospital; half of them with only one admission, the rest were admitted twice or more times; 13.0% (107) of the admissions were related to the CVDs studied here. For the patients with at least one hospitalization between 2005 and 2015, the average number of admissions was two, with an average length of stay of seven days.

Table 1 shows the distribution of the variables. Note that 71.1% (583) of the patients were women, with overall mean age of 61.1 years-old. Note that men were slightly older than women (62.3 vs 60.7 years-old). Nearly half of the population, 45.4% (372), were born in other countries, most of them in Chile. Women mainly worked in their homes (53.9%), followed by those who engaged domestic labor and other types of employment. On other hand, men were mainly engaged in construction and other informal jobs. A larger proportion of men, in relation to women, reported being retired or pensioned (10.1% vs 5.3%). Alcoholism (actual or previous) was also higher among men than women (32.1% vs 2.7%, respectively). Similar pattern was observed with smoking (current or former): 39.7% and 26.2%, respectively, among men and women. BMI mean was 32.6 kg/m², with a highest BMI observed in women compared to men (33.5 vs 30.3 kg/m²).

Table 1
Characteristics of individuals and neighborhoods by sex. Bariloche, Argentina. 2015.

The mean age of the patients at the time of the diagnosis of diabetes and hypertension was 51.5 and 51.8 years-old, respectively. Among these patients, 8.8% (72) were diagnosed with CVD. On average, the diagnosis of CVD was made 6.8 years after the diagnosis of diabetes or hypertension. Longest intervals were observed in women in relation to men: 8.0 vs 5.5 years.

Frequency of CVD diagnosis was higher among older individuals, men, current or former smokers, and those who lived in neighborhoods with higher proportion of Unmeet Basic Needs (Table 2). No association was found between body mass index and CVD (results not shown), but a positive association was found with body weight increase throughout the clinical follow-up in the healthcare center.

Table 2
Frequency of cardiovascular disease according to individual and neighborhood characteristics. Bariloche, Argentina, 2015 (n = 820).

We quantified socio-economic inequalities in both and absolute (SII) and relative (RII) terms. Overall, we found 3.3% difference in CVD between levels of Unmeet Basic Needs in absolute terms (SII); separate analysis for men and women showed 9.7% and 0.7% differences respectively. Overall, relative differences (RII) were 47% higher in the poorest quartile compared to the richest, 89% higher among men, and 12% among women.

Table 3 shows results of CVD from unadjusted and adjusted multilevel logistic models. In the unadjusted model (model 1), neighborhood’s socioeconomic score was significantly associated with CVD. The relation appeared to be graded from quartile 1 to quartile 3 and drops in quartile 4 (quartile 2 OR = 3.87; 95%CI = 1.24;12.05; quartile 3 OR = 3.95; 95%CI = 1.26;12.35; quartile 4 OR = 2.27; 95%CI = 0.65;7.95), with an inverse J-shaped pattern. After adjustment for individual sociodemographic variables (model 2), cardiovascular risk factors (model 3), and both sets of variables (model 4), this pattern is maintained. Looking at the individual level variables adjusted by the neighborhood level, we found higher odds among men than women, (around three times higher), among older individuals, and among those who increased their weight along the clinical follow-up. Smoking was not statistically significant; while alcoholism presented a protective effect, with statistical significance in model 4 (OR 0.21; 95%CI = 0.08-0.59).

Table 3
ORs (and 95%CIs) of cardiovascular disease associated with individual and neighborhood´s characteristics. Bariloche, Argentina, 2015.

Table 4 shows a separate analysis on the subset of individuals with complete data for level of education due to its high missingness (36.9%). The final model (model 5 in the Table 4), with results adjusted by sociodemographic, cardiovascular risk factors, and neighborhood level, showed that as individuals had worse educational level they presented higher odds of CVD, even though not statistically significant (quartile 2 OR = 1.14; 95%CI = 0.43;3.02; quartile 3 OR = 1.81; 95%CI = 0.70;4.67; quartile 4 OR = 2.09; 95%CI = 0.94;4.66). Neighborhood level presented similar J-shaped pattern as the results described previously.

Table 4
OR of cardiovascular disease associated with individual and neighborhood´s characteristics. Bariloche, Argentina, 2015.

Table 5 shows estimates for the effects of the variables for two specific diseases: hypertension, and diabetes (as defined by model 4 in Table 3). All variables were significantly associated to the diagnosis of hypertension, except smoking, with estimates in the similar direction as those described for model 3 in Table 3. Despite the chance of being diagnosed as diabetic increases three times the unmeet basic needs worsens, this association was no longer statistically significant. Note, however, that the ICC increased, such that neighborhood explains 18.0% of the variability.

Table 5
ORs (and 95%CIs) of cardiovascular disease associated within individual and neighborhood´s characteristics among patients with hypertension, diabetes, and both. Bariloche, Argentina, 2015.

Discussion

Different models were explored to describe the association of individual and aggregated level characteristics with CVD. The results showed that there are differences in CVDs when we simultaneously evaluate individual and contextual characteristics. Some relevant aspects merit further discussion: differences between women and men, relationship between cardiovascular risk factors and CVD, and the relations between urban environments and health problems.

Differences between women and men should be discussed in relation to differential healthcare access. The studied population was constituted by all adults who had access to the healthcare services and were under clinical follow-up in public healthcare centers. Most of them were women, fact that can be linked to differential access to healthcare-system between women and men, to the role that the women have in family-care, and to the prioritization of maternal and childhood healthcare in the local policies. In contrast, men had higher frequency in CVDs diagnosis, presenting higher odds of CVD, a shorter interval between the diagnosis of diabetes and/or hypertension and the diagnosis of CVD, and higher impact of inequalities.

The women access to healthcare seems to be related to their social role, such that their first access is usually related to the contraception planning, followed by the pregnancy care, and later they continue using the healthcare system due to their role in the childcare (as well as in the grandchildren medical care). In contrast, men mostly access medical healthcare to resolve acute health problems in order to continue working2828 Pérez SA, Perner, MS. El acceso a la salud desde un enfoque de derechos. Percepciones de los equipos de salud de la Zona Andina de Río Negro. Pilquen 2018; 21(3):32-44.. Women, as direct users of healthcare system, carry out most health-services consultations. Since it is socio-subjective, the women’s roles enabled them to express and consult for health discomfort; leading them to consult the health services earlier than men2929 Tajer D. Construyendo una agenda de género en las políticas públicas en salud. In: Tajer D, compiladora. Género y Salud. Las Políticas en acción. Buenos Aires: Lugar Editorial; 2012. p. 7-20.. This leads us to consider the inequalities through a gender perspective, which encompasses distinct stereotyped roles for women and men, differences in healthcare access, in self-care, and in family-care, differentiating their ways of living, getting sick, consulting, receiving treatment, and dying2929 Tajer D. Construyendo una agenda de género en las políticas públicas en salud. In: Tajer D, compiladora. Género y Salud. Las Políticas en acción. Buenos Aires: Lugar Editorial; 2012. p. 7-20..

Based on the 2013 National Survey of Risk Factors from Argentina, women presented higher diabetes and hypertension prevalence. Additionally, the percentage of women with glucose screening (82.2 vs 70.2%) or blood pressure screening (86.6 vs 77.8%) were also higher. Similar results were observed in the 2018 survey3030 Secretaría de gobierno de la Salud, INDEC. 4° Encuesta Nacional de Factores de Riesgo. Buenos Aires: INDEC; 2019.. In general population, other studies showed that women with diabetes had higher risk than men for coronary disease and stroke3131 Wakabayashi I. Gender differences in cardiovascular risk factors in patients with coronary artery disease and those with type 2 diabetes. J Thorac Dis 2017; 9(5):E503-E506.

32 Al-Salameh A, Chanson P, Bucher S, Ringa V, Becquemont L. Cardiovascular disease in type 2 diabetes: a review of sex-related differences in predisposition and prevention. Mayo Clin Proc 2019; 94:(2):287-308.
-3333 Peters SA, Huxley RR, Woodward M. Diabetes as a risk factor for stroke in women compared with men: a systematic review and meta-analysis of 64 cohorts, including 775,385 individuals and 12,539 strokes. The Lancet 2014; 383(9933):1973-1980..

Tobacco use, the practice of physical activity, the searching for medical treatment and the care practices are also different between women and men3030 Secretaría de gobierno de la Salud, INDEC. 4° Encuesta Nacional de Factores de Riesgo. Buenos Aires: INDEC; 2019.,3434 Rodríguez Enríquez C. Economía feminista y economía del cuidado. Aportes conceptuales para el estudio de desigualdad. Nueva Sociedad 2015; 256:30-44., which may impact on the course of disease occurrence.

No association was found between bodyweight and CVDs. In our case, the studied population was composed by individuals from deprived neighborhoods with chronic disease problems (such as diabetes and hypertension), for which overweight and obesity are involved in their causal pathway. Therefore, change in bodyweight during the clinical follow-up was analyzed, and we found a positive association between increase in bodyweight and CVDs occurrence. This shows the relevance of bodyweight change during the clinical follow-up.

The frequency of alcohol problems differed between women and men. After accounting for individual and contextual characteristics, alcohol consumption showed a protective effect on CVD. According to previous studies, alcohol consumption has complex effects on CVD, and different patterns were described according to the consumption level: a reduced risk (protective effect) for coronary disease and stroke among current alcohol consumption, but increased risk when consumption was in larger amounts3535 Mostofsky E, Chahal HS, Mukamal KJ, Rimm EB, Mittleman MA. Alcohol and immediate risk of cardiovascular events: a systematic review and dose-response meta-analysis. Circulation 2014; 133(10):679-687.

36 Leong DP, Smyth A, Teo KK, McKee M, Rangarajan S, Pais P, Liu L, Anand S, Yusuf S, INTERHEART Investigators. Patterns of alcohol consumption and myocardial infarction risk: observations from 52 countries in the INTERHEART case-control study. Circulation 2014; 130(5):390-398.
-3737 Ronksley PE, Brien SE, Tuner BJ, Mukamal KJ, Ghali WA. Association of alcohol consumption with selected cardiovascular disease outcomes: a systematic review and meta-analysis. BMJ 2011; 342:d671.. Despite this, we should bear in mind that epidemiological studies differ in consumption threshold, and how alcohol consumption is measured and categorized3838 Piano MR. Alcohol's effects on the cardiovascular system. Alcohol Res 2017; 38(2):219-241.. The protective effect of alcohol consumption regarding CVD does not mean potential harmful effects on other outcomes, such as violence, injuries, cirrhosis, or cancer, which were not included in this study.

We included group level variables, using census data, to study CVDs, allowing us to evaluate simultaneous examination of variables from groups to which individuals belong (such as neighborhoods) and individual level variables. We were not interested in the causal effects of neighborhood composition per se in the disease occurrence, but in its physical and social environment effects, which can be captured by these proxy measures. Physical environment includes man-made built environment, street design, public spaces, healthy food access, and public spaces; while social environment includes the social connections, social norms, violence, and safety levels. Both aspects may affect health through constraints or enhancements of different health-related behaviors3939 Diez Roux AV, Mair C. Neighborhoods and health. Ann N Y Acad Sci 2010; 1186:125-145..

Other studies with multilevel methodology and analyses by neighborhoods has often shown modest associations compared to those observed for individual-level characteristics3939 Diez Roux AV, Mair C. Neighborhoods and health. Ann N Y Acad Sci 2010; 1186:125-145.

40 Morozink Boylan J, Robert SA. Neighborhood SES is particularly important to the cardiovascular health of low SES individuals. Soc Sci Med 2017; 188:60-68.
-4141 Pickett KE, Peart M. Multilevel analyses of neighborhood socioeconomic context and health outcomes: a critical review. J Epidemiol Community Health 2001; 55(2):111-122.. Additionally, differences in results can be explained by the need that the outcome variable has a relatively high prevalence and vary sufficiently across groups4242 Alter DA, Austin PC, Tu JV. Community factors, hospital characteristics and inter-regional outcome variations following acute myocardial infarction in Canada. Can J Cardiol 2005; 21(3):247-55.; and/or a larger number of individuals are required when using multilevel logistic model when compared to the traditional linear regression. Both issues are present in this research (low frequency of the event and small sample size), particularly for the analyses performed for the specific outcomes (hypertension and diabetes). Straining the limitations of small-area studies and large-area studies: small-area studies with modest associations, and large-areas studies where differences are masked.

Finally, the strengths and limitations of this study are highlighted. Medical records constitute a good data source to study chronic health diseases as opposed to its known limitations for studying acute health problems4343 Almeida Filho N, Rouquayrol MZ. Introducción a la epidemiología. Buenos Aires: Lugar Editorial; 2008.. Health-disease aspects registered in medical records are diagnosed by standardized methods, which improve its validity, such as body mass index measurement or diagnosis of the CVD included in this study4444 Thiru K, Hassey A, Sullivan F. Systematic review of scope and quality of electronic patient record data in primary care. BMJ 2003; 326(7398):1070.,4545 Khan NF, Harrison SE, Rose PW. Validity of diagnostic coding within the General Practice Research Database: a systematic review. Br J Genl Pract 2010; 60(572):e128-e136.. A limitation of the medical records, however, is the absence of data allowing measurement of inequalities, food consumption, or physical activity at individual level. Likewise, these aspects are usually measured by self-report in studies in the general population. Another limitation of this study is related to the temporal relationship between exposures and outcome. To take this over we used different strategies: a) considered characteristics that do not change over time (being immigrant or biological sex); b) combined previous and current behaviors in the same category for conducting the analyses, such as current and former smoking, and actual and previous alcoholism4545 Khan NF, Harrison SE, Rose PW. Validity of diagnostic coding within the General Practice Research Database: a systematic review. Br J Genl Pract 2010; 60(572):e128-e136.; c) evaluated the temporal relationship between time to diagnosis of diabetes/hypertension and CVD; d) use record linkage with hospital discharges.

This work has several strengths. In addition to what has already been mentioned above, the inclusion of contextual level variables (neighborhood) to study health problems allows for an insight into how individual characteristics are related to group characteristics, and in turn, how health problems are related to socioeconomic heterogeneity in urban spaces, in cities with rapid urban growth, and without adequate urban planning. This interrelated process represents a major challenge for policy-makers3939 Diez Roux AV, Mair C. Neighborhoods and health. Ann N Y Acad Sci 2010; 1186:125-145..

In Argentina, and more broadly in Latin America, studies using multilevel methodology and exploring simultaneous analysis of individual and contextual characteristics in small areas are relatively recent and scarce1313 Perner MS. Enfermedad cardiovascular en contextos de desigualdad [tesis]. Lanús: Universidad Nacional de Lanús 2019. Doctorado en Salud Colectiva..The population selection process was also an important aspect of our research: different sources of patients’ records were used to improve the quality of data, and all individuals under clinical follow-up in the healthcare centers were included. Study participants represented people living in neighborhoods with heterogeneous conditions of deprivation. However, we were not able to detect contrasts among people living in neighborhoods with advantageous conditions and those living in more disadvantaged neighborhoods, as the former were not included in the study. Thus, the real gap between these populations remains hidden.

Despite this, we have been able to show differences within groups living in neighborhoods with disadvantageous conditions. In this sense, our results highlight an inequality within inequality pattern. Specifically, inequalities in disease occurrence between individuals living in disadvantageous neighborhoods, as well as inequalities regarding access to health, are linked to the contexts where individuals belong.

Finally, this study offers insights about differences within groups that live in unequal contexts. Inequalities follow the individuals throughout their lives and shape other inequalities. These inequalities become embodied and are expressed through individual and biological aspects (such as age, blood glucose, or blood pressure values), which, in its turn, are manifestations of the unequal contexts the individuals have experienced throughout their lives.

Acknowledgements

Thanks to Andrés Trotta (ISCo - Lanus National University, Argentina), Usama Bilal (Drexel University, USA), and Claudia Medina Coeli (Rio de Janeiro Federal University, Brazil) for their contributions during the thesis defense for the final elaboration of this article. Thanks to Vanessa di Cecco for her revision on the English translation. To health-workers form Hospital Zonal Bariloche and health-care centers for their collaboration in access to data.

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Publication Dates

  • Publication in this collection
    17 June 2022
  • Date of issue
    July 2022

History

  • Received
    16 Nov 2021
  • Accepted
    05 Jan 2022
  • Published
    07 Jan 2022
ABRASCO - Associação Brasileira de Saúde Coletiva Rio de Janeiro - RJ - Brazil
E-mail: revscol@fiocruz.br