Associations Between Neighborhood Racialized Economic Segregation with Cardiometabolic Health and Cortisol in a Racially/Ethnically Diverse Sample of Children from Minneapolis—St. Paul

Introduction

A robust literature shows longstanding disparities in cardiometabolic health (CMH) among racial/ethnic minoritized populations in the United States.^1,2 A fundamental cause of health disparities is structural racism; defined as the systemic manifestation of racism via laws, institutional practices, and public policy.^3–5 At the neighborhood level, structural racism may manifest as inequities resulting from policies and practices of disinvestment and exclusion of Black, Indigenous, and people of color (BIPOC). Past studies have shown that neighborhood factors are related to child health and health disparities.^6,7 Chronic physiological stress, often measured through cortisol, has been identified as a mechanism through which structural racism may result in racial/ethnic CMH disparities.^8,9 That is, discrimination and structural oppression may contribute to allostatic overload resulting in cardiovascular damage. ¹⁰

Recent structural racism literature has increasingly utilized a measure known as the index of concentration at the extremes (ICE).^11,12 ICE is a tool for measuring neighborhood-level racialized economic segregation through the quantification of neighborhood resource allocation and consequent privilege and oppression and has been shown to be effective for quantifying homogeneity at small geographic levels relative to other measures. ¹² In addition, the American Heart Association recently recommended further study into how structural factors affect CMH, specifically recognizing ICE as a valid classification of residential segregation and place-based inequity. ¹³

The current study contributes to the literature by identifying structural racism as an important intervention target to improve population health and reduce health inequities. This study is shaped by ecosocial theory which postulates that racism contributes to racial/ethnic social inequities which are expressed as racial/ethnic health disparities. ¹⁴ Recent calls to the field have recommended increased use of descriptive epidemiology to highlight persistent disparities related to structural racism, and this brief answers how place-based inequality is descriptively related to CMH in a racially and ethnically diverse sample from Minneapolis—St. Paul. ¹⁵ We hypothesized that greater neighborhood inequities would be associated with poorer CMH and higher hair cortisol levels among a racially and ethnically diverse cohort of children in the Minneapolis—St. Paul, MN area.

Materials and Methods

This is a descriptive secondary analysis of cross-sectional data from The Family Matters Study, a longitudinal observational cohort study examining risk and protective factors for cardiovascular health in children. ¹⁶ The Family Matters Study recruited families with children between the ages of 5–9 years old (n = 1307) from primary care clinics in the Minneapolis—St. Paul area. Children with dietary restrictions, body mass index (BMI) < 5th percentile, and diagnosis of serious and persistent mental illness were excluded from enrollment. Researchers intentionally recruited families from six racial and ethnic groups: White, Black, Native American, Hmong, Somali/Ethiopian, and Latinx. Parents self-identified their own race and ethnicity, as well as that of their child on a questionnaire. About half of the families participated in an ecological momentary assessment (EMA) sub-study (n = 631) as detailed elsewhere. ¹⁷ Analyses for the current investigation involved 350 children (55% of those eligible from the EMA sub-study) who participated in an in-person clinic visit (August 12th, 2019, through January 1st, 2022). During the clinic visit, the children provided a hair sample for cortisol assay and had trained study staff measure their height, weight, pulse rate, and blood pressure according to the standardized measurement protocol. All study protocols were approved by the Institutional Review Board at the University of Minnesota (1107S02666).

Staff obtained child height and weight via direct anthropometric measurement. STATA’s Zanthro procedure calculated the BMI percentile using the 2000 CDC Growth Reference. Study staff measured participant blood pressure in millimeters of mercury (mmHg) using an automated blood pressure device. Participants sat quietly without their legs crossed for 4–5 min before the first measure. Participants had three consecutive blood pressure measurements and the final two of three blood pressure measurements were averaged. Hair samples (3 cm in length) were taken from the posterior vertex of the child’s head for cortisol assay. A commercially available immunoassay with chemiluminescence detection (CLIA, IBL-Hamburg, Germany) determined cortisol concentrations following extraction. Hair cortisol values were natural log-transformed to address positive skewness and minimize outlier influence. We did not obtain hair samples from approximately 26% (n = 90) of children due to participant refusal or lack of availability (e.g., shaved head).

Three ICE measures at the census tract level were operationalized: (1) non-Hispanic White versus non-Hispanic Black homogeneity (WH/BL), (2) high (>$100,000) versus low-income homogeneity (<$25,000) (HI/LI), and (3) non-Hispanic White, high income versus non-Hispanic Black, low-income homogeneity (WH-HI/BL-LI). These three ICE variables are measures of racial and economic segregation and a combination of the two. We selected White vs. Black measures because it is the most prevalent form of racial segregation in the United States. ¹² We matched participant data to their respective census tract via their household address. We constructed these ICE measures using American Community Survey (ACS) data from 2014–2018, which preceded data collection. ¹⁸ A total of 191 census tracts were included in the computation of ICE measures. For this analysis, we categorized the ICE measures into tertiles.

Results

The analytic sample included 350 parent–child dyads (Table 1). Most caregivers (92%) and approximately half the children (53%) were female. Children were 9.8 years old on average (SD = 1.4), ranging from 6.5 to 13.8 years old. Forty-three percent of parents had a high school degree or some high school education, and 59% of households had an annual income of $49,999 or less. Nineteen percent of the children were from immigrant families. The EMA sample (n = 631) and the clinic sample (n = 350) had similar sociodemographic characteristics, with the exception of higher levels of household education and lower representation of Somali/Ethiopian participants among those who participated in the clinic visit.

The analytic sample represented 156 census tracts in the Minneapolis—St. Paul area. Median household income and median property values within the predominantly Black census tracts (least privileged) were $44,649 and $114,357 less than the predominantly White (privileged) census tracts, respectively. Owner-occupied housing was 34% lower, and the poverty rate was 27% higher in predominantly Black census tracts compared with predominantly White census tracts. Measurement completeness was 100% for body mass index percentile (BMI%ile), 98% for pulse and blood pressure, and 74% for hair cortisol.

Primary outcomes included children’s CMH measures and hair cortisol across three operationalizations of ICE (Table 2). A consistent cardiometabolic and cortisol outcome gradient was observed across the ICE tertiles. That is, BMI%ile increased as tract privilege decreased. Among the WH/BL ICE variable, the average BMI%ile among the least privileged was 14.7 percentage points (pp) higher than the most privileged (75.2 ± 26 vs. 60.5 ± 29.1). Additional measures of CMH showed that the least privileged had, on average, higher pulse rates, systolic blood pressure (SBP), and diastolic blood pressure (DBP) across all ICE operationalizations. Hair cortisol results were also higher among least privileged tracts compared with tracts with concentrated privilege, especially among the ICE representation of economic inequity. Log-transformed hair cortisol levels among the HI/LI ICE variable showed that the least privileged had higher hair cortisol levels than the most privileged (log-transformed 2.6 ± 1.9 vs. 1.2 ± 1.4). Hair cortisol levels among WH-HI/BL-LI ICE variables showed that the least privileged had higher hair cortisol levels than the most privileged group (log-transformed 2.5 ± 1.8 vs. 1.2 ± 1.4).

Discussion

The current study illustrates how racialized segregation and economic opportunities at the census tract-level are associated with children’s CMH and cortisol levels. Specifically, the use of multiple operationalizations of ICE demonstrated that tract racial segregation, economic inequity, and the intersection of the two are associated with less favorable child health metrics among children ages 6.5 to 13.8, a developmental stage at which cardiometabolic risk factors can be detected but before disease manifests. Given the cross-sectional nature of this analysis, it cannot be determined whether the associations between racialized economic segregation and health outcomes differ across life course or vary by developmental stage. Systemic strategies for promoting population-level CMH are needed to promote equitable health outcomes throughout the life course.^19,20 The economic differences presented between the sample census tracts highlight specific geographic areas for community reinvestment, such as housing quality or programs that convert renters into homeowners.

The strengths of this study include using ICE as a measure of racialized economic segregation alongside in-clinic measures of children’s CMH and hair cortisol, which is not subject to situational variability and allows for an estimate of HPA-axis activation over an extended period of time. Limitations include the cross-sectional nature of the data, the lack of information available about potential confounders of cortisol levels (e.g., child corticosteroid use), and the descriptive nature of this analysis, which does not consider the role of other potential contributors to children’s CMH. Future studies should examine the contribution of ICE with other important contributors to children’s CMH, including individual and family level variables (e.g., household income, parent education), and other systems that reinforce structural racism (e.g., access to quality health care, affordable housing).

Conclusion

Child CMH and hair cortisol levels showed an association with census tract racial and economic disadvantages, underscoring the potential importance of place-based interventions for promoting children’s health. Longitudinal, prospective studies are needed to better understand the role of multilevel structural determinants in children’s health outcomes.