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Does Medicare Managed Care Reduce Racial/Ethnic Disparities in Diabetes Preventive Care and Healthcare Expenditures?

Publication
Article
The American Journal of Managed CareOctober 2016
Volume 22
Issue 10

The authors aimed to examine whether participation in Medicare managed care, compared with fee-for-service, has any effects on racial/ethnic disparities in diabetes care and healthcare expenditures among older adults.

ABSTRACT

Objectives: Large and persistent racial/ethnic disparities exist in diabetes care. Considering the rapid rate of growth of Medicare Managed Care (MMC) plans among minority populations, our aim was to investigate whether disparities in diabetes management and healthcare expenditures are smaller in MMC versus Medicare fee-for-service (MFFS) plans. We hypothesized that racial/ethnic disparities in diabetes care and in health expenditures would be less pronounced in MMC compared with MFFS plans.

Study Design: Nationally representative data from the 2006 to 2011 Medical Expenditure Panel Survey on white, African American, and Hispanic seniors with diabetes were analyzed.

Methods: We examined 4 measures of diabetes care—regular foot check, eye exam, cholesterol check, and flu vaccine—and total and out-of-pocket (OOP) healthcare expenditures. We implemented the Institute of Medicine’s definition of disparity, applied propensity score weighting to adjust for potential differential selection, and used a difference-in-differences generalized linear framework to estimate outcome measures.

Results: For African Americans, MMC was associated with a $1183 (P <.036) reduction and a $547 (P <.001) increase in disparities in total and OOP healthcare expenditures, respectively. For Hispanics, disparities in foot exam, flu shot, and cholesterol check decreased by 5, 10, and 7 percentage points (P <.001); additionally, disparities in total and OOP healthcare expenditures were reduced by $3588 and $276 (P <.001), respectively. MMC plans spend less on everyone, including whites.

Conclusions: Hispanic/white disparities in diabetes management and healthcare expenditures were smaller in MMC than in MFFS plans. African American/white disparities were not consistently larger in 1 setting than the other.

Am J Manag Care. 2016;22(10):e360-e367

Take-Away Points

Disparities in care and rising healthcare costs continue to plague our healthcare system. Our study indicates that:

  • Compared with fee-for-service, Medicare managed care (MMC) spent less on every patient, regardless of race/ethnicity and had substantially reduced Hispanic/white disparities in diabetes care.
  • MMC had mixed effects on African American/white disparities, which may be explained by the degree of market penetration and geographic variations of MMC plans.
  • Promoting some MMC strategies—for instance, incentivizing the use of preventative services, promoting organized outreach programs, mandating a primary care provider, and monitoring patients with chronic conditions&mdash;may reduce racial/ethnic disparities in diabetes care and lower healthcare expenditures.

Disparities in healthcare are a persistent national problem, and reducing them has been the goal of various national healthcare policies for decades.1,2 In particular, racial/ethnic disparity in diabetes care is coupled with a rapid increase in the prevalence of this illness among older minorities.3 Between 1994 and 2001, there was a 37% increase in the number of individuals 67 years or older who were diagnosed with diabetes, with the highest rates seen among minorities.4 If their health is not properly managed, individuals with diabetes are at risk of serious and costly adverse events.3,5 Additionally, minority groups report lower rates of recommended preventive health services for diabetes, such as influenza vaccinations6 and cholesterol screenings.7

Over the past 20 years, managed care plans have rapidly increased in size and influence, mainly as solutions to enduring problems of quality and cost in US healthcare.8 Similarly, Medicare Managed Care (MMC) plans were intended to address these issues by providing lower costs and better quality care for beneficiaries.9 Evidence is mixed on whether MMC plans have consistently achieved these goals.9 We have summarized some of the main differences between traditional Medicare fee-for-service (MFFS) and MMC plans in eAppendix A (eAppendices available at www.ajmc.com).10-12 Certain characteristics of MMC plans—including having a mandatory primary care physician; offering more preventive services, such as eye exams; and capping out-of-pocket (OOP) spending&mdash;may reduce disparities in quality of care by making valuable services more accessible to vulnerable populations.9,12 Diabetes-specific preventive care, diabetes screening, and self-management training are covered under both MFFS and MMC plans. MMC plans, however, cap OOP spending, usually have lower deductible rates than MFFS plans, and charge co-pays (fixed amounts) instead of coinsurance (percentages).10,11 On the other hand, by applying gate-keeping policies, MMC plans might worsen access to care among racial/ethnic minorities by restricting their access to providers who might be geographically closer or linguistically or culturally more trusted.13 Whether enrollment into MMC versus traditional MFFS would worsen or ameliorate racial/ethnic disparities in access to diabetes care is not known.

Additionally, research indicates the possibility of nonrandom selection into MMC by: a) differential selection by health and geographic location14 and/or b) differential selection by race/ethnicity.14 There is a possibility that beneficiaries with lower incomes and less education (mostly minorities) choose MMC plans mainly because of lower OOP costs, not because of higher levels of care received. Considering the literature on the existence of selection bias towards healthier individuals (with lower risks) among MMC plans,14 chronically ill minorities may be worse off in MMC plans compared with nonrestricted, traditional MFFS.15

Using a nationally representative sample of Medicare beneficiaries diagnosed with diabetes, our specific aims were to: a) examine differences in racial/ethnic disparities between MMC and MFFS enrollees in 4 American Diabetes Association-recommended measures of diabetes management, and b) assess differences between MMC and MFFS in annual total and OOP healthcare expenditures. We hypothesized that MMC plans would reduce racial/ethnic disparities in diabetes management.

METHODSData

We used the Household Component files of the 2006 to 2011 Medical Expenditure Panel Survey (MEPS).16 The MEPS is a nationally representative survey of the US noninstitutionalized population.17 The Agency for Healthcare Research and Quality (AHRQ) conducts the survey and verifies the survey information. We limited our analysis to Medicare beneficiaries 65 years or older who reported being diagnosed with diabetes and reported being (non-Hispanic) African American, Hispanic, or (non-Hispanic) white. Our sample included 3735 individuals (MMC = 1235; MFFS = 2500) (Figure 1). Although the variable-specific nonresponse rate was less than 3%, without the imputation of missing values, we would have lost 13% of the initial sample size in our regression models. Thus, we used a multiple imputation technique (with 5 complete sets) to estimate missing values for independent variables.18,19

Dependent Variables

We used a total of 6 dependent variables. We examined diabetes management across 4 domains during the year: 1) whether feet were checked for sores, 2) whether individuals had a dilated eye exam, 3) whether individuals had their cholesterol checked, and 4) whether individuals had a flu vaccination. Additionally, we examined annual total and OOP healthcare expenditures. Dollar values were inflated, using the 2013 all-items Consumer Price Index.

Independent Variables

In addition to race/ethnicity, sociodemographic variables including age, sex, marital status, location based on 4 US Census regions, and living in a metropolitan statistical area were obtained at the time of survey completion. Education was measured using a 4-category variable (less than high school, high school, college degree, or other professional degree) with high school degree set as the reference category. Household income was measured based on percentage relative to the federal poverty level (FPL), using 5 mutually exclusive categories (poor or <100% of the FPL; near poor or 100%-125% of the FPL; low or 125%-199% of the FPL; middle or 200%-399% of the FPL; and high or ≥400% of the FPL), with the middle-income group serving as the reference category. For health insurance, we included 2 variables that measured whether an individual reported being enrolled in: a) MMC (vs MFFS) and b) whether an individual reported being enrolled in Medicaid (dual eligible). All individuals in our sample reported being enrolled in Medicare. For health-related variables, we accounted for 2 measures of self-rated physical and mental health, coded as “fair” or “poor” versus “good,” “very good,” or “excellent.” We also controlled for 4 reported chronic conditions: asthma, high blood pressure, any heart problems, and arthritis. Finally, we adjusted for whether an individual reported having a usual source of care. We checked for multicollinearity among our independent variables and did not find any strong correlations.

Statistical Analysis

First, we used propensity score weighting (PSW) to adjust for any potential selection bias into MMC versus MFFS. We used all independent variables (listed in Table 1) to estimate an inverse probability of treatment weighting; we then generated “synthetic” MMC and MFFS Medicare groups with distributional equivalence.20 Second, we applied the Institute of Medicine (IOM) conceptual framework in our analysis. In its 2002 report, Unequal Treatment: Confronting Racial and Ethnic Disparities in Health Care, the IOM defines disparity as “a difference in access or treatment provided to members of different racial or ethnic groups that is not justified by the underlying health conditions or treatment preferences of patients.”21

Quantifying the IOM Definition of Racial/Ethnic Disparities

In order to implement the IOM definition of a racial/ethnic disparity, we applied the rank-and-replace techniques recommended by Cook and colleagues.22 A full discussion of the rank-and-replace method has been described in detail elsewhere.23-25 Briefly, we applied a 4-step method to estimate the IOM disparities. First, we ran a multivariable difference-in-differences regression model for each of our outcome variables (eAppendices B and C). For all 4 dichotomous diabetes management measures, we used logistic regression models. For the continuous spending measures, we used generalized linear regression models.26 First, we applied the rank-and-replacement method to replace minorities’ health distributions with those of whites. To do so, we created a health index for each white and minority individual based on the sum of multiplications of the health variables’ coefficients and the actual health values in regression models described in step 1. Second, we ranked the health index values for whites and minorities, separately. Third, we replaced the proportionately ranked values of whites with those of minorities. Finally, using the original fitted regression models from step 1 and transformed health index values of minorities from step 3, we predicted the counterfactual outcome values for minorities and real values for whites.23 The differences in predicted averages between racial/ethnic groups were calculated within MMC and MFFS groups. Standard errors of all estimated measures were calculated using bootstrapping techniques applied in the context of complex survey design (replicated 100 times with replacement).27 We describe the IOM method in detail in eAppendix D.

We used Stata version 13 (StataCorp LP, College Station, Texas) for all analyses and adjusted for the clustered and stratified complex survey design of the MEPS.28 We weighted all estimates using the AHRQ-supplied and propensity score-adjusted diabetes weights.28

RESULTS

Table 1 reports the population characteristics of Medicare patients diagnosed with diabetes stratified by race and insurance type. Compared with whites, among both MFFS and MMC enrollees, certain characteristics persist: a) African Americans had a higher proportion of female enrollees and a lower rate of being married, b) African Americans and Hispanics had lower incomes and were less educated, c) African Americans and Hispanics had higher prevalence of hypertension and lower prevalence of stroke (Hispanics only) and emphysema, and d) significant geographic variation exists among minorities between MMC and MFFS. For example, in the West, MMC had greater penetration than MFFS among whites (29% compared with 13%; P <.001) and Hispanics (44% compared with 34%; P = .008). In contrast, in the South, MFFS had greater penetration than MMC among all population groups. Additionally, regardless of race, more MMC enrollees (by 13 percentage points; P <.001) live in large metropolitan areas compared with MFFS enrollees. To summarize, although there are differences within racial/ethnic groups between those enrolled in MMC and those enrolled in MFFS, the data did not present a clear pattern on differential selection based on race/ethnicity into MMC.

Figure 2 shows the unadjusted averages for utilization rates of diabetes management, and OOP and total healthcare costs, stratified by race/ethnicity and enrollment in MMC versus MFFS. In the context of white/African American differences, rates of flu shot, cholesterol check, and dilated eye exam were 12, 4, and 5 percentage points higher for whites than African Americans enrolled in MFFS, respectively. For MMC enrollees, the prevalence of getting a flu shot was 15 percentage points higher for whites than African Americans. In the context of white/Hispanic differences, the rate of flu shots was higher by 11 percentage points among white MFFS enrollees than Hispanics. For MMC enrollees, the rate of eye exams was 10 percentage points higher for whites than Hispanics. Both minority groups enrolled in MMC and MFFS had lower OOP costs than whites, with no significant difference in total healthcare cost by race/ethnicity.

Additional differences in outcomes across groups emerge once we adjust statistically for the differences in enrollees’ other characteristics, as described earlier. Figure 3 shows the adjusted predicted probabilities for utilization rates of diabetes management and predicted averages for total and OOP healthcare expenditures by race/ethnicity and type of insurance (applying PSW and the IOM definition of disparities—see eAppendices B and C). In MFFS, African American enrollees were 4 percentage points more likely to report a foot exam than white enrollees. However, African American MFFS enrollees were less likely to use the other 3 diabetes management tests compared with white MFFS enrollees. Disparities in flu shots, cholesterol checks, and eye exams were estimated to be 11, 6, and 7 percentage points (P <.001 for all), respectively. Additionally, African American MFFS enrollees spent $1176 and $483 less in total and OOP on healthcare compared with white MFFS enrollees. Among MMC enrollees, we found that African Americans had flu shot, cholesterol check, and eye examination rates that were respectively 12, 5, and 5 percentage points (P <.001) lower than those of whites. As with MFFS enrollees, African Americans had higher rates of foot examinations than did whites (P <.05). Although there was no disparity between whites and African Americans in total healthcare expenditure, African Americans paid $1030 less OOP (P <.001).

White/Hispanic comparisons showed that Hispanics in MFFS had rates of foot examinations, flu shots, cholesterol checks, and eye examinations that were, respectively, 9, 13, 8, and 11 percentage points lower than those of their white counterparts (P <.001 for all). Additionally, Hispanic MFFS enrollees spent $5815 and $1013 less than white enrollees in total and OOP healthcare expenditures, respectively (P <.001). We also found differences between white and Hispanic MMC enrollees in rates of foot exams, flu shots, and eye examinations: 4, 3, and 10 percentage points, respectively, with whites having a higher probability of using the services (P <.001). White and Hispanic MMC enrollees did not differ in their adherence to cholesterol checks. Additionally, Hispanics spent $2227 and $737 less than white enrollees in total and OOP healthcare expenditures, respectively (P <.001).

In Table 2 we compare the adjusted estimated racial/ethnic disparities in diabetes management and healthcare costs. The disparity values represent absolute differences between minority groups and whites (calculated by deducting average adjusted predictive values for whites from average adjusted predictive values for minorities). Negative values indicate lower use of services or lower healthcare expenditures for minorities. For African Americans, enrollment in MMC did not have any effects on disparities in utilization of the 4 screening services. On the expenditures end, due to lower OOP payments among African Americans enrolled in MMC, white/African American disparity in OOP spending was higher by $547 among MMC enrollees.

Compared with MFFS enrollees, white/Hispanic disparities in foot exams, flu shots, and cholesterol checks among MMC enrollees were lower by 5 (P <.05), 10 (P <.001), and 7 (P <.001) percentage points, respectively. Additionally, white/Hispanic disparities in OOP and total costs were lower by $3588 and $276, respectively, among MMC enrollees compared with MFFS enrollees. In summary, white/African American disparities in healthcare costs among MMC enrollees compared with MFFS enrollees were mixed; however, white/Hispanic disparities among MMC enrollees compared with MFFS enrollees were substantially lower.

Sensitivity Analysis

As a sensitivity analysis (eAppendix E), we compared our methods, using the IOM measure of disparity and applying PSW, with 4 other methods: 1) unadjusted average, 2) regression adjusted, 3) regression adjusted using PSW, and 4) using the IOM measure of disparity without applying PSW. When we used basic regressions and PSW adjusted regressions, the 2 models respectively showed $638 and $631 increases, respectively, in white/African American disparity in OOP costs among MMC enrollees compared with MFFS enrollees. Applying the IOM definition without PSW between MMC and MFFS enrollees showed that white/African American disparities in probability of foot exam and in OOP cost were higher among MMC enrollees by 3 percentage points and by $493, respectively; disparity in total healthcare cost, however, was lower among MMC enrollees by $1024.

For white/Hispanic disparities, using the IOM approach without applying PSW indicates a decrease in disparities among MMC enrollees compared with MFFS enrollees in receiving flu shots and cholesterol checks by 9 and 5 percentage points, and OOP and total healthcare costs by $196 and $3296, respectively.

Finally, because the greatest urgency for cholesterol screening is among patients with existing cardiovascular disease (CVD), we examined the probability of cholesterol tests among diabetes patients with strokes, blood pressure, or any heart problems. Among individuals 65 years or older, about 90% of diabetes patients reported having CVD. Thus, the predicted probabilities of cholesterol tests, stratified by race/ethnicity and MMC enrollment, were not statistically different from our findings, using the complete sample.

DISCUSSION

We examined the effect of enrollment in MMC versus MFFS among white, African American, and Hispanic Medicare beneficiaries who reported having diabetes on 4 measures of diabetes management and on healthcare expenditures. Our findings indicate that white/Hispanic disparities in diabetes management were lower among MMC enrollees compared with MFFS enrollees more consistently than were white/African American disparities. Second, disparities in total healthcare spending between both minority populations and whites were lower among MMC enrollees.

MMC plans are attractive to minorities in the United States as they provide financially reasonable alternatives for beneficiaries with lower incomes and fewer financial resources.29 However, not all MMC plans are equal regarding the financial accessibility and range of benefits they provide.30 In areas with higher MMC penetration rates, and therefore higher competition among MMC plans, the financial barriers for enrollment are lower and better benefits are offered.29 In that regard, regional variation in MMC plans tends to favor Hispanic population. More than 64% of all MMC plans are concentrated in the South and the West, where the density of the Hispanic population is relatively higher than that of other minority groups in the United States.31 As such, the breadth of coverage, more streamlined services, and enhanced quality of care provided by plans offered in regions with heavy Hispanic populations could have contributed to the more consistent reduction in Hispanic/white disparities in diabetes management care.

Smaller disparities in healthcare spending in MMC may be driven by the fact that MMC plans spend less on everyone—including whites&mdash;than do MFFS plans. MMC enrollment had largely muted effects on health spending among Hispanics. Previous research shows that Hispanics spend less on healthcare compared with other groups.32 Socioeconomic and cultural factors could have also contributed to these findings.33 Older Latinos are more likely to reside in more socially cohesive enclaves with strong networks of family and friends. These networks can mitigate the need for extensive use of medical resources (eg, institutional care vs home care) and can potentially lead to similarity in levels of health spending among Latino respondents, regardless of coverage type.34 As such, our findings that MMC enrollment had minimal effects on reducing healthcare expenditures in this group falls within the purview of a larger body of literature on Latino health and healthcare.35

MMC had mixed association with white/African American disparities in healthcare expenditures, with no effect on disparities in diabetes management. African Americans do not live in highly penetrated MMC areas, and it is plausible that the insurance market was not as competitive as in areas with higher MMC penetration. Most often, African Americans purchase low-performance insurance plans.36 Previous research indicates that for some measures of quality of care, about half of African American/white disparities were related to differences between insurance plans.36 These disparities can be due to low-performance insurance plans and/or due to financial and transportation barriers in accessing quality care.

Compared with MFFS, total healthcare costs were lower for both whites and African American MMC enrollees, and lower OOP spending was particularly more pronounced among African Americans. Research suggests that minorities are more likely to enroll in MMC due to lower OOP costs.13 Over half of Medicare beneficiaries who are enrolled in MMC specify listed lower costs (31%) or better benefits (21%) as their number 1 reason for switching to MMC.37

Limitations

This study had a few limitations. First, there was no information regarding different MMC plans and their penetration rates in the MEPS. Other studies have found that required co-payments and benefits offered by MMC plans vary from one market to another. Additionally, high penetration of MMC in a market may also affect what is offered by a traditional MFFS plan in that market.14 Second, we were not able to control for the effects of individual preferences/lifestyle on diabetes management. Previous studies show that individual preferences and sociocultural determinants of health are important contributing factors to racial/ethnic disparities in access to care.38

CONCLUSIONS

Racial/ethnic disparities in quality of diabetes care are associated with adverse health events among minority populations.39 For example, research suggests low rates of eye exams among patients with diabetes corresponds with high rates of severe retina problems.40 Adverse diabetes health events create long-term clinical and financial burdens for individuals and society.41 It is important to incentivize delivery of preventive services, particularly among minority populations with diabetes, who are at a higher risk of adverse events. Research shows that these efforts can be successful in decreasing risks of complication and, therefore, long-term costs associated with diabetes.42 Although disparity in management of diabetes care is a multifaceted issue associated with health literacy, financial barriers,30 transportation,43 and cultural preferences, some characteristics of MMC plans may ameliorate racial/ethnic disparities in management of diabetes care. For example, most MMC plans mandate having a primary care provider, and many MMC plans offer enhanced monitoring for patients with chronic conditions, as well as organized outreach programs.44 These characteristics of a health coverage plan may contribute to greater adherence to recommended diabetes management protocols, particularly among vulnerable populations.

Author Affiliations: Section of Plastic Surgery, University of Michigan Medical School (EM, BLM), Ann Arbor, MI; Institute of Gerontology, Wayne State University (WT), Detroit, MI; Institute for Social Research, University of Michigan (HGL), Ann Arbor, MI.

Source of Funding: None.

Author Disclosures: The authors report no relationship or financial interest with any entity that would pose a conflict of interest with the subject matter of this article.

Authorship Information: Concept and design (EM); acquisition of data (EM); analysis and interpretation of data (EM); drafting of the manuscript (HGL, BLM, EM, WT); critical revision of the manuscript for important intellectual content (HGL, BLM, EM, WT); statistical analysis (EM, WT).

Address Correspondence to: Elham Mahmoudi, PhD, University of Michigan Medical School, 2800 Plymouth Rd, NCRC Building 16, Rm G024W, Ann Arbor, MI 48109. E-mail: mahmoudi@med.umich.edu.

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