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  • 标题:Costs of depression from claims data for medicare recipients in a population-based sample.
  • 作者:Alexandre, Pierre K. ; Hwang, Seungyoung ; Roth, Kimberly B.
  • 期刊名称:Journal of Health and Human Services Administration
  • 印刷版ISSN:1079-3739
  • 出版年度:2016
  • 期号:June
  • 语种:English
  • 出版社:Southern Public Administration Education Foundation, Inc.
  • 摘要:This study was funded by the National Institute on Drug Abuse (PI: William W. Eaton, Ph.D.; R01 DA009897). No disclosures to report.
  • 关键词:Depression (Mood disorder);Depression, Mental;Health care costs;Medical care, Cost of;Medical economics;Medicare

Costs of depression from claims data for medicare recipients in a population-based sample.


Alexandre, Pierre K. ; Hwang, Seungyoung ; Roth, Kimberly B. 等


ACKNOWLEDGEMENT

This study was funded by the National Institute on Drug Abuse (PI: William W. Eaton, Ph.D.; R01 DA009897). No disclosures to report.

ABSTRACT

Background: Many persons with depressive disorder are not treated and associated costs are not recorded.

Aims of the Study: To determine whether major depressive disorder (MDD) is associated with higher medical cost among Medicare recipients.

Methods: Four waves of the Baltimore-Epidemiologic Catchment Area (Baltimore ECA) Study conducted between 1981 and 2004 were linked to Medicare claims data for the years 1999 to 2004 from the Centers for Medicare and Medicaid Services (CMS). Generalized linear models specified with a gamma distribution and log link function were used to examine direct medical care costs associated with MDD.

Results: Medicare recipients with no history of MDD in either the ECA or CMS data had mean six-year medical costs of US $40,670, compared to $87,445 for Medicare recipients with MDD as recorded in CMS data and $43,583 for those with MDD as recorded in Baltimore-ECA data. Multivariable regressions found that compared to Medicare recipients with no history of depression, those with depression identified in the CMS data had significantly higher medical costs; about 1.87 times (95% confidence interval (CI) 1.32 to 2.67) higher. Medicare recipients with a history of depression identified in the ECA data were no more likely to have higher costs than were Medicare recipients with no history of depression (relative ratio 1.33, 95% CI 0.87 to 2.02).

Discussion: Medicare recipients with a history of depression identified in claims data had significantly higher medical costs than recipients with no history of depression. However, no significant differences were found between Medicare recipients with depression in the community-based Baltimore ECA data and those with no history of depression. The results show that the source of diagnosis, in treatment versus survey data, produces differences in results as regards costs.

Limitations: This study involved only Medicare recipients with claims data over the six years 1999 to 2004. Many of the ECA respondents were too young to qualify for Medicare.

Implications for Health Policy: Depressive disorder involves substantial medical care costs. The findings provide information on the economic burden of depression, an important but often omitted dimension and perspective of the burden of mental illnesses.

INTRODUCTION

The most ambitious effort to evaluate the cost of illness (COI) of diseases in terms of impairment and disability was the World Health Organization--Global Burden of Disease (WHO-GBD) Study.(Murray & Lopez, 1994) This study found that the category of neuropsychiatric disorders, as a group, had the highest burden of disease in the world. It is thus reasonable to expect higher medical costs associated with these disorders, presumably stemming from long-lasting disability of affected individuals. Direct medical costs of illness are expenditures for medical services such as medications, doctor visits, and hospitalizations. The primary objective of this study was to examine direct medical costs associated with major depressive disorder (referred simply as 'depression') for Medicare recipients who participated in the Baltimore Epidemiologic Catchment Area (Baltimore ECA) Study.

Luppa et al.(Luppa, Heinrich, Angermeyer, Konig, & Riedel-Heller, 2007) in a systematic review of COI studies of depression divided these studies into two categories: (1) per-capita cost studies that estimated the cost of medical resources consumed by a patient; and (2) national cost studies that estimated cost of depression by multiplying national prevalence data (number of cases) with the relevant unit cost of medical services published in national statistics. Stoudemire et al.(Stoudemire, Frank, Hedemark, Kamlet, & Blazer, 1986) conducted one of the first studies on the costs of depressive disorder in the adult US population using a range of statistics from national data sources. They found that major depression was associated with a total cost of $16.3 billion with an estimated annual medical cost of $436 per person. Rice and Miller(Rice & Miller, 1995) estimated the cost associated with affective disorders at $30.3 billion in 2000 dollars and an annual medical cost of depression equal to $877 in 1990 dollars. Greenberg and colleagues(Greenberg et al., 2003; Greenberg, Kessler, & Nells, 1996; Greenberg, Stiglin, Finkelstein, & Berndt, 1993) assessed the economic cost of depression at $43.7 billion in 1990 dollars with annual medical cost of $640 per person and later in 2000 at $83.1 billion, with an estimated annual medical cost of $1,126 per case. Another study used the 1999 Medical Expenditures Panel Survey and estimated total cost of depression at $5.2 billion in 1999 dollars; annual medical cost per depression case was $5,871.(Trivedi, Lawrence, Blake, Rappaport, & Feldhaus, 2004)

Simon et al.(Simon, VonKorff, & Barlow, 1995) used computerized record systems of a large health maintenance organization (HMO) to identify a sample of primary care patients with depression and a control group with no depression diagnosis. They found that the annual cost for adults with depression was about $4,246 compared to $2,371 for patients with no depression (difference of $1,975) in 1993 dollars. In addition to having significantly higher total medical care costs, depressed patients had higher costs in every category of care. Other per-capita studies examined medical cost of depression among individuals in their later years of life.(Murray & Lopez, 1994) Unutzer et al.(Unutzer et al., 1997) conducted a four-year prospective cohort study of Medicare beneficiaries enrolled in a HMO in Seattle to examine whether patients with depressive symptoms had higher costs of general medical services. Excess annual costs due to depression were estimated at $789 in 1995 dollars. Medical cost for older adults with depressive symptoms enrolled in that same HMO for the year 1999 was estimated at $6,494 compared to $4,231 for the non-depressed patient, i.e., excess cost of depression estimated at $2,263 per year.(Katon, Lin, Russo, & Unutzer, 2003) Luber et al.(Luber et al., 2001) analyzed health services utilization and costs for a sample of 3,481indivuals aged 65 and older seen in a primary care setting over 12 months. Ambulatory and inpatient costs were calculated for the year 1994 for patients with a diagnosis of depression and a control group with no depression. Annual costs were estimated at $1,556 per depressed patients compared to $927 for non-depressed patients; or an excess of $629.

Table 1 presents a summary of studies on the costs of depression published for the US. For comparison purposes, these costs were adjusted to 2004 US dollars using the US Gross Domestic Product (GDP) deflator. An important issue in analyzing costs of depression is whether the focus is on treated depression in a particular setting, or depression in the general population regardless of the treatment. This study is the first to examine these two issues in a single paper. In addition to a control group with no history of major depressive disorder, this paper analyzed Medicare recipients who were treated for depression as reported in the Medicare claims data, and Medicare recipients with a history of depression identified in the community-based data that might or might not have been in treatment. Another significant contribution of this paper is that it focuses on the elderly, the most important demographic group when it comes to controlling the rise of medical costs in the United States.

METHODS

Study Sample

The study sample was constructed by linking two data sources: the Baltimore Epidemiologic Catchment Area (Baltimore ECA) Study conducted between 1981 and 2004 and Medicare claims data for the years 1999 to 2004. The Baltimore ECA was part of the larger Epidemiologic Catchment Area (ECA) study and the first cohorts interviewed were among the earliest in the nation sampled from the general population to include a wide range of psychopathology according to diagnostic criteria.(Eaton, Regier, Locke, & Taube, 1981) Of the five ECA sites (Baltimore, MD.; New Haven, CT.; Durham, NC; St Louis, MO; and Los Angeles, CA), the Baltimore ECA Study was the only site to designate its entire baseline sample of household respondents interviewed in 1981 for follow-ups. A total of 175,211 household residents of Eastern Baltimore were sampled probabilistically in 1981 for participation in the Baltimore- ECA study.(Eaton, Kessler, & (eds), 1985; Regier, Myers, & Kramer, 1985) Persons aged 65 and older were oversampled by selecting all elderly members of the household for interview, as well as whomever in the household was randomly selected. Four thousand two hundred and thirty-eight (4,238) persons were designated for the baseline sample and 3,481 completed the interview.(Eaton et al., 1984) One year later, 2,768 of these participants were re-interviewed. From the end of 1993 through early 1996, 1,920 of those interviewed in 1981 were interviewed again(Eaton et al., 1997) (abbreviated below to "1994" to designate this wave of the study cohort because most of the survey occurred in 1994). From 2004 to 2005, 1,071 of those interviewed in 1994 were followed-up with an additional interview (abbreviated below to "2004").(Eaton, Kalaydjian, Scharfstein, Mezuk, & Ding, 2007) The research was approved by the Johns Hopkins Bloomberg School of Public Health Institutional Review Board.

For this analysis we requested Medicare data for the years 1999 to 2004 from the Centers for Medicare and Medicaid Services (CMS) to be linked to Baltimore ECA study participants that were interviewed during the '1994' wave. Medicare research identifiable files (RIF) that contain person-specific data on Medicare providers, beneficiaries, and recipients were not available for years prior to 1999. Because only study participants with a listed social security number could be linked to Medicare RIF data, we requested data only for study participants for whom social security numbers were available (about 90%). The study sample included 63% females, 62% Caucasians, 35% African-Americans and 3% other racial groups, which was nearly identical to the composition of the original cohort. Participants in the follow-up interviews did not differ from the survivors with respect to age, race, and gender.(Badawi, Eaton, Myllyluoma, Weimer, & Gallo, 1999) We submitted a finder file containing social security number, date of birth, and gender for 1,702 participants that were linked to 1999-2004 Medicare data (at a cost of about $140,000). The linked file included 581 (34.1%) study participants that were eligible to enroll in Medicare during 1999-2004 because of age, disability, and/or end-stage renal disease. We excluded 15 persons that were enrolled in a Medicare health maintenance organization who did not have claims data, leaving 566 persons for our analysis.

Cost Assessment

To estimate direct medical costs we used final reimbursements from all Medicare claims to reflect actual resource use. Total direct medical costs were calculated by adding all payments made by beneficiaries (i.e., deductibles, coinsurance), Medicare and health care providers. All costs were adjusted in 2004 dollars using 3% annual inflation rate as recommended by the Panel on Cost Effectiveness in Health and Medicine.(Weinstein, Siegel, Gold, Kamlet, & Russell, 1996)

Diagnosis of Major Depressive Disorder (MDD)

Two groups of study participants with a history of major depressive disorder were constructed. The first group included participants with depression status assessed in the Baltimore ECA data via the Diagnostic Interview Schedule (DIS). The DIS is a structured diagnostic interview that can be administered by trained non-clinicians to elicit information for assessment according to the Diagnostic and Statistical Manual of Mental Disorders (DSM).(Robins, Helzer, Croughan, Williams, & Spitzer, 1981) The DIS was used in all four waves in the Baltimore ECA study.(Robins, Helzer, Cottler, & Goldring, 1989; Robins, Helzer, Croughan, & Ratcliff, 1981; Robins, Helzer, Croughan, Williams, et al., 1981) A total of 45 respondents were considered positive for a diagnosis of depression because they met criteria for depressive disorder at any time during the survey years.

The second group of study participants included individuals with diagnosis of depression assessed in the Medicare claims data using the International Classification of Diseases, 9th edition, Clinical Modification (ICD-9-CM) codes associated with each claim. Individuals were identified as suffering from depression if they had ICD-9-CM codes of 296.2 (depression, single episode) or 296.3 (depression, recurrent episode) in any of the Medicare files obtained from CMS for institutional inpatient and outpatient care (Part A), physician care (Part B), skilled nursing facilities, and home health care.

Assessment of Participant Characteristics

The last wave of the Baltimore ECA was used to obtain the most recent data on demographic and socioeconomic characteristics of study participants, including age, gender, race, educational attainment level, marital status, and household income. If personal information was missing for that wave, data were taken from prior waves. Otherwise, we imputed the missing values through Markov Chain Monte Carlo (MCMC) and logistic regression methods using the PROC MI procedure in SAS. Missing values on household income were imputed for 14 subjects (2.5%) in the dataset. The Medicare data files were used to obtain information on respondents' comorbid medical conditions, including myocardial infarction, congestive heart failure, peripheral vascular disease, cerebrovascular disease, chronic pulmonary disease, peptic ulcer disease, mild liver disease, diabetes, hemiplegia or paraplegia, renal disease, and cancer.

Statistical Analysis

Using the group with no indication of MDD in either of the two datasets as controls, we compared patient demographic, socioeconomic, and clinical characteristics across depression status using t-test and Fisher's exact test at the 0.05 significance level.(Allison, 2012) In multivariable analysis, we examined direct medical costs for these groups using generalized linear models (GLM) specified with a gamma distribution and log link function to deal with skewedness of medical cost measures in the upper tail.(Barber & Thompson, 2004) Models were adjusted for differences in demographic, socioeconomic, and clinical variables that could confound the relationship between depression and medical costs. The covariates included age, gender (male vs. female), race (nonwhite vs. white), education (less than high school, high school, beyond high school), marital status (never married vs. married), household income (less than $25,000, $25,000 to 49,999; $50,000 or higher). To control for comorbid medical conditions we included a weighted Charlson comorbidity index based on the 11 medical conditions from the Medicare data as discussed earlier.(Charlson, Pompei, Ales, & MacKenzie, 1987; Quan et al., 2005) We did not control for differential treatment and survival according to depression status; rather our approach mirrors that of cost-effectiveness analysis in which costs are estimated in parallel with effects of treatment and survival but not adjusted for.(Gold, Siegel, Russel, & Weinstein, 1996) All analyses were conducted using Statistical Analysis System (SAS), Version 9.4 (SAS Institute Inc., Cary, NC, USA).

RESULTS

Sample Characteristics

Table 2 compares the demographic, socioeconomic, and clinical characteristics for the two groups of Medicare recipients with MDD relative to Medicare recipients with no history of MDD. Among the 566 Medicare recipients in the study, we found 472 (83.4%) had no history of depression, 59 (10.4%) had a history of depression in the CMS data, and 45 (8.0%) had a history of depression in the ECA data. These two groups overlapped, in that ten respondents with a record of depression in the CMS data also had depression assessed in the ECA data. Table 3 shows the agreement between the two sources of diagnosis, in which the kappa statistic is estimated to be 0.11, indicating poor agreement. This reinforces the importance of studying individuals with depression treated in a medical setting as well as those with depression assessed in the community.

The analysis presented on Table 2 indicates that a significantly higher percentage of Medicare recipients with depression in the ECA data were females (80.0%) compared to recipients with no depression (65.0%). Regardless of the data sources, Medicare recipients with depression were younger. With regards to medical conditions, except for cancer there were no significant differences between Medicare recipients with depression in the ECA data relative to recipients with no depression. On the other hand, a significantly higher percentage of Medicare recipients in the CMS data (column 3 in Table 2) had a variety of comorbid medical conditions, including myocardial infarction, peripheral vascular disease, cerebrovascular disease, peptic ulcer disease, hemiplegia/paraplegia, and renal disease.

Mean Six-year Medical Costs for Medicare Recipients

Medicare recipients with MDD had higher mean six-year medical costs relative to with no history of MDD, regardless of data sources used to indicate depression status (Table 4). Medicare recipients with no depression had mean six-year medical costs of $40,670 (95% CI [$35,227, $46,112]), compared to $87,445 (95% CI [$61,655, $113,235]) for recipients with depression in the CMS data and $43,583 (95% CI [$17,949, $69,218]) for recipients with depression identified in ECA data.

For easy interpretations, relative cost ratios associated with depression were calculated from the estimates of the adjusted least squares means. For the depression variable for example, the relative cost ratio represents the ratio of the expected cost between a person with depression and a person with no depression. After adjustment for demographic, socioeconomic, and clinical characteristics, participants with depression in CMS data had significantly higher six-year total medical costs than those with no depression (relative cost ratio = 1.87, 95% CI 1.32 to 2.67, P < 0.001). Participants with depression in ECA data had 1.33 times (95% CI: 0.87 to 2.02) higher costs than those without a history of depression, but the depression was not significant associated with medical costs (P = 0.1899). On an annual basis, the estimated medical cost of depression in this study were $7,796 = ($87,445-$40,670) / 6 for those with depression in CMS data and $486 = ($43,583-$40,670) / 6 for those with depression in ECA data. These unadjusted costs for depression assessed in the CMS were slightly higher than unadjusted estimates obtained from previous studies (see Table 1), but the costs associated with depression assessed in ECA data were lower than those in previous studies.

DISCUSSION

Medicare recipients with a history of depression had higher medical costs than Medicare recipients with no history of depression. The medical cost difference existed regardless of the source of the diagnosis of depression, although the difference was much larger and only statistically significant when the source of the diagnosis of depression was the Medicare record. There are several plausible explanations for the higher medical costs for Medicare recipients identified in the CMS data relative to those with a DIS diagnosis in the Baltimore ECA data. Depression often goes without treatment.(Kessler et al., 2003; Mojtabai, Eaton, & Maulik, 2012) Individuals with depression who are not in treatment as might be the case for many individuals with a history of depression in the Baltimore ECA data might have less severe forms of depressive disorder. It is worth nothing that most cases of depression in the ECA group occurred earlier than the period 1999-2004, whereas the occurrence of depression recorded in the CMS is constrained to have occurred during that period. A third explanation is that the persons with depression recorded in the ECA interview who are not in the Medicare data are avoiding medical treatment in general, reducing their costs. It could also be that, among individuals with depression, those who seek treatment for medical conditions are more likely to have their depression identified. It is also important to consider that cases of depression that go untreated might eventually generate higher medical costs associated with later-occurring consequences of failure to treat depression, because depressive disorder is a risk factor for important and other costly medical conditions such as diabetes, cerebrovascular disease, heart attack, and dementia. (Eaton et al., 2012) These latter conditions have onset later in life, and higher costs associated with these conditions which are consequent to depressive disorder will be more prominent in elderly populations--perhaps older than the sample in this study. Another consideration is the small amount of overlap between the two estimates of depression: 10 respondents with depression recorded in both data sources. Part of the discrepancy is due to the lifetime record in the ECA versus the six year record in the CMS. But there are likely many other sources of variation, as it has been shown repeatedly in comparing estimates of psychiatric diagnosis with different methods of assessment.(Eaton, Hall, Macdonald, & McKibben, 2007) This lack of overlap indicates that the cost estimates for depression indeed depend on the source of the diagnosis: methods of estimation that apply cost data from treatment or medical record sources to estimates of the prevalence of depression from population-based surveys are likely to produce inflated estimates of cost.

This study is unusual in its combination of a population-based sample with cost data based on medical claims records. But it has important limitations. First, many of the ECA respondents were too young to qualify for Medicare. Second, this study involved only Medicare recipients with claims data over the six years 1999 to 2004. If individuals with no claims at all were more likely to be in the "no depression" group, the costs associated with depression might be underestimated. Moreover, we assigned missing indicators to 14 recipients with no information on household income. But sensitivity analyses, in which we performed analyses with and without adjustment for household income limited to recipients without missing information on these variables, revealed similar results for these variables. Despite these limitations, the direct medical costs estimated in this study provide information on the economic burden of depression in our society, an important but often omitted dimension and perspective of the burden of mental illnesses. It is worth nothing in this context that direct medical costs represent only 30 percent of the total costs of depression to society.(Greenberg et al., 2003) Although there is a range of estimates depending on the methods used, all of them demonstrate that depression represents a serious public health problem and an economic burden of major proportions for society.

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PIERRE K. ALEXANDRE Florida Atlantic University

SEUNGYOUNG HWANG KIMBERLY B. ROTH JOSEPH J. GALLO WILLIAM W. EATON Johns Hopkins University
Table 1
Annual medical costs of depression from existing studies in 2004
dollars (increasing order)



Study       Sample size (a)  Data source     Age

Luber       3,481            Primary         65-97
2001        (246)            care (b)
Stoudemire  National         ECA             [less than or equal to]18
1986        estimates        Prevalence (c)
Greenberg   National         ECA             [less than or equal to]18
1993        estimates        Prevalence (c)
Unutzer     2,558            Primary         [less than or equal to]65
1997        (353)            care (b)
Rice        National         National        [less than or equal to]18
1995        estimates        Statistics (c)
Greenberg   National         ECA             [less than or equal to]18
2003        estimates        Prevalence (c)
Simon       12,514           Primary         [less than or equal to]18
1995        (6,257)          care (b)
Katon       9,001            Primary         [less than or equal to]60
2003        (1,736)          care (b)
Trivedi     24,617           MEPS (d)        All
2004        (703)

                          Annual medical
                            cost of
Study       Diagnosis      depression

Luber       Depressive        $391
2001        disorder
Stoudemire  Major             $435
1986        depression
Greenberg   Affective         $853
1993        disorders
Unutzer     Subclinical       $933
1997        depression
Rice        Affective       $1,162
1995        disorders
Greenberg   Affective       $1,226
2003        disorders
Simon       Depressive      $2,270
1995        disorder
Katon       Subclinical     $2,519
2003        depression
Trivedi     Depressive      $6,535
2004        disorder

(a) Number in parenthesis indicates cases of depression.
(b) Cost estimation based on health care consumption of individual
patients using database of health care providers.
(c) Cost estimation based on national statistics.
(d) This dataset consists of all the required healthcare expenditures
needed for the study.
Notes. This table was adapted from Luppa et al. 2007. PC, Primary Care;
ECA, Epidemiological Catchment Area; MEPS, Medical Expenditure Panel
Survey.

Table 2
Description of Medicare recipients with and without a history of major
depressive disorder (MDD)

                                    No MDD in both
                                   Medicare and ECA
                                      (N=472)

Personal characteristics
Age, years                          77.5 [+ or -] 11.6
Female                             307 (65.0)
White                              334 (70.8)
Education
 Eleventh grade or less            257 (54.4)
 High school                       127 (26.9)
 Beyond high school                 88 (18.6)
Married                            204 (43.2)
Household income
 Low (<$25K)                       345 (73.1)
 Medium ($25K to $50K)              89 (18.9)
 High
 ([greater than or equal to]$50K)   38 (8.1)
Medical conditions
Myocardial infarction               91 (19.3)
Congestive heart failure           171 (36.2)
Peripheral vascular disease        192 (40.7)
Cerebrovascular disease            166 (35.2)
Chronic pulmonary disease          179 (37.9)
Peptic ulcer disease                39  (8.3)
Mild liver disease                  53 (11.2)
Any diabetes                       218 (46.2)
Hemiplegia or paraplegia            73 (15.5)
Renal disease                       21 (4.4)
Any cancer                         105 (22.2)

                                          MDD
                                      in Medicare
                                        (N=59)

Personal characteristics
Age, years                         73.5 [+ or -] 14.2 (*)
Female                             45 (76.3)
White                              43 (72.9)
Education
 Eleventh grade or less            37 (62.7)
 High school                       13 (22.0)
 Beyond high school                 9 (15.3)
Married                            19 (32.2)
Household income
 Low (<$25K)                       46 (78.0)
 Medium ($25K to $50K)             10 (16.9)
 High
 ([greater than or equal to]$50K)   3 (5.1)
Medical conditions
Myocardial infarction              23 (39.0) (**)
Congestive heart failure           28 (47.5)
Peripheral vascular disease        35 (59.3) (**)
Cerebrovascular disease            39 (66.1) (***)
Chronic pulmonary disease          30 (50.8)
Peptic ulcer disease               12 (20.3) (**)
Mild liver disease                 12 (20.3)
Any diabetes                       35 (59.3)
Hemiplegia or paraplegia           16 (27.1) (*)
Renal disease                       7 (11.9) (*)
Any cancer                          9 (15.3)

                                      MDD
                                    in ECA
                                    (N=45)

Personal characteristics
Age, years                         67.1 [+ or -]   12.1 (***)
Female                             36 (80.0)  (*)
White                              29 (64.4)
Education
 Eleventh grade or less            18 (40.0)
 High school                       19 (42.2)
 Beyond high school                 8 (17.8)
Married                            18 (40.0)
Household income
 Low (<$25K)                       30 (66.7)
 Medium ($25K to $50K)              8 (17.8)
 High
 ([greater than or equal to]$50K)   7 (15.6)
Medical conditions
Myocardial infarction              10 (22.2)
Congestive heart failure           17 (37.8)
Peripheral vascular disease        19 (42.2)
Cerebrovascular disease            18 (40.0)
Chronic pulmonary disease          20 (44.4)
Peptic ulcer disease                4  (8.9)
Mild liver disease                  5 (11.1)
Any diabetes                       23 (51.1)
Hemiplegia or paraplegia           10 (22.2)
Renal disease                       4  (8.9)
Any cancer                          2  (4.4) (**)

Source. Baltimore Epidemiologic Catchment Area (ECA) Follow-up Study,
1981-2004 and from the Medicare, 1999-2004.
(*) P<0.05; (**) P<0.01; (***) P<0.001 for comparison between Medicare
recipients with no MDD in both Medicare and ECA as a reference group
and Medicare recipients with MDD in either Medicare or ECA using t-test
for continuous variables and Fisher's exact test for categorical
variables; all other comparisons were not significant (P>0.05).

Table 3
Relationship between depression based on ECA data and claim of
depression in Medicare data

                No depression           Any depression
                based on Medicare data  based on Medicare data  Totals

No depression           472                     49                521
based on ECA
data
Any depression           35                     10                 45
based on ECA
data
Totals                  507                     59                566

Kappa = 0.1122, 95% CI = (0.0043, 0.2201).
Source. Baltimore Epidemiologic Catchment Area (ECA) Follow-up Study,
1981-2004 and from the Medicare, 1999-2004.

Table 4
Six-year average Medicare costs for Medicare recipients with and
without a history of major depressive disorder (MDD)

                     Unadjusted            Adjusted
                      Mean Cost       Relative Cost Ratio
                      (95% CI)             (95% CI)

No MDD in both
Medicare and ECA   $40,670            1.00
(N=472)           ($35,227-$46,112)
MDD in Medicare    $87,445 (***)      1.87 (1.32-2.67) (***)
(N=59)            ($61,655-$113,235)
MDD in ECA         $43,583            1.33 (0.87-2.02)
(N=45)            ($17,949-$69,218)

Source. Baltimore Epidemiologic Catchment Area (ECA) Follow-up Study,
1981-2004 and from the Medicare, 1999-2004.
Notes. Control variables in the multivariable models included terms for
depression status, age, gender, ethnicity, education, marital status,
household income, and Charlson comorbidity index.
(*) P<0.05; (**) P<0.01; (***) P<0.001.
CI: Confidence Interval.
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