Abstract
The Center for Epidemiologic Studies Depression Scale (CES-D) is a widely used self-report measure of depression symptomatology. This study evaluated the reliability, validity, and measurement invariance of the CES-D 10 in a diverse cohort of Hispanics/Latinos from the Hispanic Community Health Study/Study of Latinos (HCHS/SOL). The sample consisted of 16,415 Hispanic/Latino adults recruited from four field centers (Miami, FL; San Diego, CA; Bronx, NY; Chicago, IL). Participants completed interview administered measures in English or Spanish. The CES-D 10 was examined for internal consistency, test-retest reliability, convergent validity, and measurement invariance. The total score for the CES-D 10 displayed acceptable internal consistencies (Cronbach α’s = .80 – .86) and test-retest reliability (r’s = .41 – .70) across the total sample, language group and ethnic background group. The total CES-D 10 scores correlated in a theoretically consistent manner with the Spielberger State-Trait Anxiety Inventory (r = .72, p < .001), the Patient Health Questionnaire-9 depression measure (r = .80, p < .001) the Short Form-12’s Mental Component Summary (r = −.65, p < .001) and Physical Component Summary score (r = −.25, p < .001). A confirmatory factor analysis showed that a one-factor model fit the CES-D 10 data well (CFI = .986, RMSEA = .047) after correlating one pair of item residual variances. Multiple group analyses showed the one-factor structure to be invariant across English and Spanish speaking responders and partially invariant across Hispanic/Latino background groups. The total score of the CES-D 10 can be recommended for use with Hispanics/Latinos in English and Spanish.
Keywords: CES-D 10, Hispanics/Latinos, reliability, validity, measurement invariance
Depression is widely recognized as a costly and potentially debilitating illness among adults in the United States (US), with nearly 1 in 10 meeting criteria for a depressive disorder (Centers for Disease Control and Prevention (CDC), 2010). Affective functioning, a person’s mood, and emotional well-being are important components of overall health. Depression symptoms are associated with worse physical health and can adversely affect risk and outcomes in a variety of chronic diseases, including cardiovascular disease (CVD), cancer, diabetes, and obesity (CDC, 2014). Research suggests that depressive symptoms may differ across Hispanic/Latino background groups. For example, previous research (Wassertheil-Smoller et al., 2014) found persons of Puerto Rican background to have higher levels of depressive symptoms compared to other Hispanic/Latino background groups (e.g., Central American, Cuban, Dominican, Mexican, and South American).
The Center for Epidemiologic Studies Depression Scale (CES-D) is designed to measure self-reported depression symptoms in the general population (Radloff, 1977). The 20 items for the CES-D (hereafter called CES-D 20) were generated from a pool of validated depression measures and were selected to map onto the then current Diagnostic and Statistical Manual of Mental Disorders (DSM) (American Psychiatric Association, 1968) criteria for depression (Radloff, 1977). Major components of depression symptoms assessed include depressed mood, feelings of guilt, hopelessness, loss of appetite and sleep disturbance (Radloff, 1977). The CES-D 20 has been widely used to measure depression symptoms in varied populations (e.g., adolescents, elderly, clinical and non-clinical) and contexts (Perreira, Deeb-Sossa, Harris, & Bollen, 2005) and has been translated into several languages including Spanish. The CES-D 20 has been shown to have high internal consistency, split-half reliability, and moderate test-retest reliability, across a variety of populations and language versions (Eaton, Muntaner, Smith, Tien, & Ybarra, 1999; Knight, Williams, McGee, & Olaman, 1997; Masten, Caldwell-Colbert, Alcala, & Mijares, 1986).
Several shortened versions of the CES-D (Andresen, Malmgren, Carter, & Patrick, 1994; Cole, Rabin, Smith, & Kaufman, 2004; Kohout, Berkman, Evans, & Cornoni-Huntley, 1993) have been developed for contexts in which the full instrument may be too burdensome. In an attempt to reduce administration time and improve clinical utility, Andresen et al. (1994) developed a 10-item version of the CES-D (hereafter called CES-D 10) to screen for depression symptoms in elderly adults. The CES-D 10 was developed from the original version by using item-total correlations and eliminating redundant items from the CES-D 20. Compared to the CES-D 20, which is comprised of both somatic and affective symptoms, the CES-D 10 is primarily comprised of affective symptoms (Cheng & Chan, 2005). Among adult samples, the CES-D 10 has shown comparable reliability (Irwin, Artin, & Oxman, 1999), good predictive accuracy when compared to the full-length CESD-20 (Andresen et al., 1994; Boey, 1999; Dimitrov, 2010; Irwin et al., 1999), and moderate test-retest stability over a 12-month period (Boey, 1999).
While the CES-D 20 has been shown to have good internal consistency reliability, test-retest reliability, convergent validity and measurement validity in general and diverse populations (Eaton et al., 1999; Knight et al., 1997; Masten et al., 1986), fewer studies have examined the psychometric properties of the CES-D 10 (Lee & Chokkanathan, 2008). Further, the majority of the research on the psychometric properties of the CES-D 10 has been conducted primarily with non-Hispanic White samples, despite the fact that the psychometric properties of an instrument are sample dependent. In particular, the applicability of the CES-D 10 across diverse Hispanics/Latinos has been largely unexplored. Indeed, the measurement properties of the Spanish translation of the CES-D 10 among Spanish-speaking Hispanic/Latinos require further examination.
Cross-cultural researchers have long recognized the importance of ensuring construct comparability in diverse linguistic and cultural groups such as Hispanics/Latinos. Given that 35.3 million Hispanics/Latinos speak a language other than English in the home, Spanish language measures of depression are increasingly necessary in research and clinical contexts. In addition, although translation procedures are followed, careful translation alone does not ensure that multiple language versions of an instrument measure the same construct, in the same way, in different groups (Nair, White, Knight, & Roosa, 2009). Therefore, empirical evaluations of measurement equivalence are necessary across linguistic and cultural groups if group or test score comparisons are planned. In addition, the Standards for Educational and Psychological Testing (AERA, APA, & NCME, 2009, 2014) and the International Test Commission (ITC) have developed guidelines for translating and psychometrically evaluating psychological tests (Hambleton, 2001).
It is fundamental to determine whether instruments developed for non-Hispanic Whites can be used effectively in ethnic minority populations (Ramirez, Ford, Stewart, & Teresi, 2005), including Hispanics/Latinos, the fastest growing ethnic minority group in the US (Passel, Cohn, & Lopez, 2011). Unless constructs are measured equivalently across linguistically diverse groups, findings from data pooled across languages and language-group comparisons may produce biased estimates and ultimately misleading conclusions (Chen, 2008; Ramirez et al., 2005). Furthermore, the lack of linguistically and culturally appropriate and/or validated measures limits research conducted in linguistic and ethnic minority groups (Martinez, 2008). Multiple factors, such as social desirability, translation problems, differential responses to positively versus negatively worded items, and response format, can affect the measurement equivalence of the construct and instrument (Hambleton, 2001). Therefore, prior to recommendations concerning the use of an instrument, the psychometric properties including measurement invariance of an instrument must be established. Measurement invariance examines the degree to which the psychometric properties of the observed indicators are generalizable across groups (Vandenberg & Lance, 2000). Measurement invariance is particularly important when linguistic and cultural groups are compared. Establishing measurement invariance allows for the interpretation of differences between groups to be considered accurate and meaningful (Ferro & Speechley, 2013).
The Current Study
Assessment of the psychometric properties of the CES-D 10 in English and Spanish is warranted to determine whether the measure accurately measures depressive symptomatology in Hispanics/Latinos. The present study examined (1) the internal consistency of the CES-D 10, (2) test-retest reliability of the CES-D 10 using a subset of participants who completed a second assessment and a third assessment, (3) convergent validity of the CES-D 10 with measures assessing related constructs (e.g., anxiety, health status), (4) the factor structure of the CES-D 10, and (5) factorial invariance (configural invariance, metric invariance, and scalar/threshold invariance) of the best-fitting model for English and Spanish language groups and for Hispanic/Latino background groups.
We hypothesized that the CES-D 10 would be internally consistent (≥ .70) in the full sample, for language version (English and Spanish), and for diverse Hispanic/Latino background groups (i.e., Dominican, Central American, Cuban, Mexican, Puerto Rican, or South American). For test-retest reliability, we hypothesized that the CES-D 10 would demonstrate moderate to strong test-retest reliability between assessments conducted at baseline (Assessment Time 1), 3–9 months post baseline (Assessment Time 2) and within 1–3 weeks from Time 2 (Assessment Time 3). For convergent construct validity, we hypothesized that the CES-D 10 would be correlated with the Spielberger Trait Anxiety Inventory (STAI), Short Form Health Survey-12 (SF-12) Mental Health Component (MHC) score, SF-12 Physical Health Component (PHC) score and the Patient Health Questionnaire-9 (PHQ-9). Depression and anxiety are known to have high co-morbidity (Clark & Watson, 1991; Mineka, Watson, & Calark, 1998) and as such we expected a moderate correlation between scores from the CES-D 10 and the STAI. We expected the strongest correlation between the CES-D 10 and PHQ-9 as both assess depression symptoms. Based on previous measurement approaches (Björgvinsson, Kertz, Bigda-Peyton, McCoy, & Aderkan, 2013; Carpenter et al., 1998; Yu, Lin, & Hsu, 2013) and given its practical utility for screening purposes, the current study tested the one-factor structure of the CES-D 10 and we hypothesized that the model would demonstrate configural invariance, metric invariance, and scalar/threshold invariance and would provide a good fit to the data across both language groups and Hispanic/Latino background groups.
Methods
Participants and Procedures
Repeated data from three assessment points were used for the current study. Time 1 data were derived from the baseline exam of the Hispanic Community Health Study/Study of Latinos (HCHS/SOL), a population-based cohort study designed to establish the prevalence, incidence, and risk and protective factors for major chronic diseases among Hispanic/Latinos from diverse backgrounds. The HCHS/SOL parent study examined 16,415 self-identified Hispanics/Latinos aged 18 to 76 years from randomly selected households from communities surrounding four US field centers (Miami, FL; San Diego, CA; Bronx, NY; Chicago, IL), using a two-stage probability sampling approach. Details of the study sample (Lavange et al., 2010) and approach (Sorlie et al., 2010) have previously been described. Complete data were available for 15,487 individuals who participated in the HCHS/SOL baseline assessment. For Assessment Time 2, a subsample of the larger study was recruited to participate in the HCHS/SOL Sociocultural Ancillary Study, a separate comprehensive assessment of socioeconomic, cultural, and psychosocial factors. This subsample was comprised of approximately one third of the HCHS/SOL cohort (n = 5,313), with assessment within 3–9 months of the baseline exam; the methods for this study have previously been described (Gallo et al., 2014). Complete data were available for 4,959 individuals who participated in the HCHS/SOL Sociocultural Ancillary Study. For Assessment Time 3, a subset of participants (n = 325) from three (Chicago, IL; Miami, FL; San Diego, CA) of the four field centers, who completed both the HCHS/SOL and HCHS/SOL Sociocultural Ancillary Study exam were recruited to complete a third survey administration within 1–3 weeks of the Sociocultural Ancillary Study with the purpose of providing preliminary evidence of test-retest reliability and convergent validity. Complete data were available for n = 309 participants (see Table 1). At each participating field center, Institutional Review Board approval was obtained and all participants provided written informed consent.
Table 1.
Instrument | Assessment Time 1 (HCHS/SOL Baseline) |
Assessment Time 2 Sociocultural Ancillary Study |
Assessment Time 3 |
---|---|---|---|
Demographics | X | ||
CES-D 10 | X | X | X |
STAI | X | X | X |
SF-12-MHC | X | X | |
SF-12 PHC | X | X | |
PHQ-9 | X |
Note. CES-D 10 = Center for Epidemiological Studies of Depression (10 items); STAI = Spielberger Trait Anxiety Inventory; SF-12 MHC = Short-Form 12 Health Survey Mental Health Component; SF-12 PHC = Short-Form Health Survey Physical Health Component; PHQ-9 = Patient Health Questionnaire-9. An “X” indicates that an assessment was completed at the specified time.
Measures
Demographic Variables
Participants completed questions pertaining to socio-demographic characteristics including age, participant sex, marital status, income (0 = < $20,000, 1 = $20,001–50,000 and 2 = > $50,001), education (1 = less than high school, 2 = high school graduate, 3 = above high school), number of years living in the US, Hispanic/Latino background (Central American, Cuban, Dominican, Mexican, Puerto Rican, and South American) and language (i.e., English or Spanish) that each participant selected to complete the interview.
Center for Epidemiologic Studies Depression Scale
(CES-D 10; Andresen et al., 1994). The CES-D 10 measures frequency of depression symptoms experienced in the past week. Ratings were based on a 4-point response format from 0 (rarely or none of the time) to 3 (most or all of the time) with positively worded items (items 5 and 8) reverse scored, and total scores ranging from 0 to 30. The CES-D 10 has demonstrated good internal consistency reliability in the general population, in older adults and in multiethnic populations (Cheng & Chan, 2005; Irwin et al., 1999). The CES-D 10 has also demonstrated acceptable to good sensitivity and specificity in detecting a depression diagnosis (Björgvinsson, Kertz, Bigda-Peyton, McCoy, & Aderka, 2013; Zhang et al., 2012). The Spanish version of the CES-D 10 was translated by the HCHS/SOL following recommended translation guidelines (Van de Vivier & Hambleton, 1996). Briefly, translation followed a four step process that included: (1) Creation of two independent translations; (2) Comparison and review of translations by a committee comprised of bilingual/bicultural members from each of the primary Hispanic/Latino background groups; (3) Pilot-testing of the approved version via focus groups comprised of bilingual and monolingual representatives; and (4) Validation of translated instruments with a group of bilingual representatives. Internal consistency for the current sample was acceptable (α full sample = .80; α English = .82; α Spanish = .82).
Spielberger Trait Anxiety Inventory
(STAI; Spielberger, Gorsuch, & Lushene, 1970). Trait anxiety was measured using the 10-item version of the 20-item Trait Anxiety Scale from the STAI. The short form version correlates highly with the full version (r = .96, unpublished work). Respondents rate how they generally feel (e.g., nervous and restless) on a 4-point scale from 1 (almost never) to 4 (almost always). Total scores range from 10 to 40 with higher scores reflecting greater endorsement of anxious feelings. This abbreviated measure has demonstrated good psychometric properties including good test-retest reliability (Bromberger & Matthews, 1996; Matthews, Kelsey, Meilahn, Kuller, & Wing, 1989). The Spanish translation of the STAI (Salman, 1998) is available from Mind Garden (http://www.mingarden.com/products/staisad.htm). Internal consistency was high for the current sample (Cronbach’s α full sample = .93; α English = .92; α Spanish = .94).
Short-Form 12 Health Survey
(SF-12; Ware, Kosinski, & Keller, 1995). The SF-12 is a general health-related quality of life instrument. It was originally developed as an alternative to the widely used Short-Form 36 Health Survey (SF-36), for use with studies in which the SF-36 may have been too lengthy. The measure yields two scores: the Physical Component Summary (PCS) and the Mental Health Component Summary (MCS) score. Three of the five items for the MCS reflect symptoms from the diagnostic criteria for depression and anxiety, such as feeling depressed and feeling restless (Vilagut et al., 2013). Scores are standardized to population norms, with the mean set at 50 (SD = 10) and where a zero score indicates the lowest level of health. The SF-12 has demonstrated good test-retest reliability (Amir, Lewin-Epstein, Becker, & Buskila, 2002; Gandek et al., 1998). The Spanish SF-12 is available for public use from Quality Metric at http://www.qualitymetric.com.
Patient Health Questionnaire-9
(PHQ-9; Spitzer, Kroenke, & Williams, 1999). The PHQ-9 is a self-report assessment of recent (past 2 weeks) depression symptoms on a 4-point scale from 0 (not at all) to 3 (nearly every day), with total scores ranging from 0 to 27. It contains nine items that parallel the diagnostic criteria for depression outlined by the Diagnostic and Statistical Manual of Mental Disorders, Fourth Edition-Text Revision (DSM-IV-TR; American Psychiatric Association, 2000). The PHQ-9 has demonstrated good internal consistency reliability (Merz, Malcarne, Roesch, Riley, & Sadler, 2011; Spitzer, Kroenke, & Williams, 1999) and excellent test-retest reliability (Kroenke, Spitzer, & Williams, 2001; Patten & Schopflocher, 2009; Pinto-Meza, Serrano-Blanco, Penarrubia, Blanco, & Haro, 2005). The Spanish PHQ-9 is provided by the authors of the measure and is available for public use. Internal consistency was good in the current sample (α full sample = .85; α English = .82; α Spanish = .86).
Procedure and Statistical Analyses
Analyses were performed using IBM Statistical Package for the Social Sciences (SPSS) Version 20 (IBM Corp. Armonk, NY), Statistical Analysis System Version 9.4 (SAS. Cary, North Carolina) and Mplus Version 7.0 (Muthén & Muthén, 2006). Alpha was set at 0.05. Descriptive statistics for the sample were conducted in SAS using complex sampling procedures to account for the stratified multi-stage area probability study design of household addresses and were weighted relative to the 2010 census to adjust for sampling probability and nonresponse (Lavange et al., 2010). Confirmatory factor analyses (CFA) and multiple group CFAs across language and ethnic background group were conducted in Mplus 7.0.
Internal Consistency, Test-retest Reliability and Convergent Validity
Cronbach’s alpha (α) was calculated for parent study data to evaluate the internal consistency reliability of the CES D-10 across the full sample, language (English and Spanish), and Hispanic/Latino background groups (Dominican, Central American, Cuban, Mexican, Puerto Rican, or South American), with reliability coefficients exceeding .70 considered adequate. Test-retest reliability was estimated by correlating CES-D 10 total scores between Assessment Time 1 with Assessment Time 2 and Assessment Time 3. Convergent validity was calculated using Pearson’s correlations between the CES-D 10 with STAI, SF-12 MHC, SF-12 PHC and PHQ-9.
Confirmatory Factor Analysis (CFA) and Multiple-Group CFA
CFA was used to examine the validity of the one-factor structure of the CES-D 10 based on data from Assessment Time 1. CFA and multiple group CFA models were tested for data fit using weighted least squares mean- and variance adjusted (WLSMV) estimation with THETA parameterization, which is appropriate for modeling categorical or ordinal data (Beauducel & Herzberg, 2006). Evaluation of the overall model fit was based on the following goodness-of-fit indices: (a) the model Chi-square (χ2; Hu & Bentler, 1999), (b) the Comparative Fit Index (CFI; Bentler, 1990); and (c) the Root Mean Square Error of Approximation (RMSEA; Steiger, 1990). Evidence of statistical model fit is provided when the χ2 value is not statistically significant; however, the χ2 index tends to falsely reject adequate model fit with large sample sizes, such as ours (Hoyle, 2000). We followed accepted guidelines described by Hu and Bentler (1999) and determined that models with a CFI greater than or equal to .95, and an RMSEA less than or equal to .06, fit reasonably well.
We then evaluated the one-factor structure of the CES-D 10 for group invariance across language and Hispanic/Latino background, respectively. Following recommendations by Vanderberg and Lance (2000; see Dimitrov, 2010), we used a sequential model comparison approach of nested models (between increasingly restrictive models) that addressed configural invariance (i.e., equivalent factor structure), metric invariance (i.e. equivalent factor loadings), and scalar/threshold invariance (i.e., equivalent item thresholds in the case of ordinal data) across groups. Because the Δχ2 is heavily influenced by sample size, we determined the factorial invariance between nested models by examining changes in descriptive indices of model fit as main criteria. Specifically, decreases in CFI values of less than or equal to .01 and increases in RMSEA values of less than or equal to .015 indicated invariance at each step (Chen, 2007; Cheung & Rensvold, 2002; Dimitrov, 2010). When evaluating language invariance between English and Spanish language groups, configural invariance was tested by comparing whether the factor structure was equivalent across languages with no equality constraints imposed on factor loadings or thresholds. Equality constraints across groups were then imposed sequentially; first on factor loadings and subsequently on both factor loadings and item thresholds to test for metric and scalar/threshold invariance, respectively. If the change in either of the fit indices between a less restrictive and a more restrictive model was greater than the specified cut-off criteria, we tested for partial metric or scalar/threshold invariance by releasing the equality constraints of parameters (i.e., loadings or thresholds) for items with the largest modification indices one at a time until the change criteria were sufficiently met. Furthermore, we conducted multiple-group analyses to test for invariance of the one-factor structure CES-D 10 across the six Hispanic/Latino background groups following the same procedure used to establish measurement invariance across languages.
Results
The age of the target population ranged from 18 to 76, with an average of 41.3 years (SE = .25). As shown in Table 2, nearly half (46.5%) of the target population had annual household incomes of less than $20,000, two-thirds (67.1%) had a high school education or greater, and half were married or cohabitating (49.7%). Within the sample, the majority of participants chose to complete the interview in Spanish (76.2%).
Table 2.
Overall (N = 15,487) |
Dominican (n = 1,400) |
Central American (n = 1,704) |
Cuban (n = 2,302) |
Mexican American (n = 6,412) |
Puerto Rican (n = 2,629) |
South American (n = 1,040) |
|
---|---|---|---|---|---|---|---|
Age2 | 41.32 (0.25) | 39.55 (0.70) | 39.67 (0.48) | 46.46 (0.53) | 38.52 (0.38) | 42.99 (0.52) | 42.35 (0.77) |
Women1 | 52.07 (0.54) | 60.44 (1.93) | 52.46 (1.67) | 47.55 (1.07) | 53.30 (0.97) | 48.81 (1.41) | 54.66 (2.00) |
Married or Cohabitating1 Income1 |
49.72 (0.78) | 37.59 (1.84) | 46.49 (1.61) | 51.64 (1.51) | 59.61 (1.22) | 32.58 (1.46) | 49.58 (2.16) |
< $20,000 | 46.50 (1.02) | 54.53 (2.34) | 53.16 (2.16) | 54.24 (1.64) | 38.92 (1.63) | 49.38 (1.90) | 43.40 (2.12) |
$20,001– $50,000 |
40.75 (0.70) | 37.20 (2.13) | 38.87 (1.97) | 36.69 (1.51) | 45.25 (1.14) | 36.08 (1.87) | 44.73 (2.01) |
>$50,001 Education1 |
12.75 (0.82) | 8.27 (1.28) | 7.97 (1.14) | 9.06 (1.12) | 15.84 (1.52) | 14.54 (1.21) | 11.97 (1.48) |
< High School/GED |
32.89 (0.74) | 36.79 (1.82) | 37.99 (1.65) | 22.25 (1.07) | 36.42 (1.33) | 36.45 (1.61) | 22.14 (1.97) |
High School | 28.58 (0.58) | 23.13 (1.89) | 26.33 (1.49) | 30.09 (1.41) | 30.04 (1.02) | 27.84 (1.26) | 27.84 (1.90) |
> High School/GED Years in US1 |
38.53 (0.83) | 40.08 (1.80) | 35.68 (1.64) | 47.66 (1.53) | 33.54 (1.57) | 35.71 (1.64) | 50.02 (2.17) |
< 10 | 28.32 (0.97) | 24.48 (1.91) | 37.30 (2.10) | 49.13 (1.83) | 23.95 (1.19) | 6.44 (0.88) | 41.20 (2.40) |
≥ 10 | 71.68 (0.97) | 75.52 (1.91) | 62.70 (2.10) | 50.87 (1.83) | 76.05 (1.18) | 93.56 (0.88) | 58.80 (2.40) |
US Born2 | 21.36 (0.79) | 16.31 (2.04) | 7.32 (1.14) | 7.28 (0.94) | 23.77 (1.04) | 48.14 (1.57) | 5.45 (0.95) |
Spanish language1 |
76.21 (0.90) | 76.59 (2.43) | 88.27 (1.48) | 92.65 (0.86) | 77.90 (1.09) | 41.23 (1.81) | 89.50 (1.42) |
CES-D 102 | 6.99 (0.08) | 7.16 (0.22) | 6.59 (0.17) | 6.95 (0.17) | 6.34 (0.13) | 8.83 (0.22) | 6.49 (0.23) |
STAI2 | 17.02 (0.35) | 17.23 (0.26) | 16.54 (0.16) | 16.31 (0.16) | 16.97 (0.13) | 18.36 (0.22) | 16.25 (0.21) |
SF-12 MHS2 | 49.18 (0.15) | 48.51 (0.52) | 50.35 (0.33) | 49.80 (0.32) | 49.49 (0.27) | 47.20 (0.42) | 50.14 (0.46) |
Note.
n (%),
M (SE); CES-D 10 = Center for the Epidemiological Studies of Depression (10 items); STAI = Spielberger Trait Anxiety Inventory; SF-12 MHS = Short-Form Health Survey Mental Health Component.
Internal Consistency, Test-retest Reliability and Convergent Validity
The means and standard deviations for the CES-D 10 items are shown in Table 4. As shown in Table 4, internal consistency reliabilities for the full sample, language and background groups were acceptable, with Cronbach’s alphas ≥ .70. With regard to test-retest reliability, among participants who completed the CES-D 10 a second time within the 3–9 month interval (Assessment Time 2) the temporal stability coefficient was moderate, r = 53, p < .001 and among participants who completed the CES-D 10 within the 1–3 week interval (Assessment Time 3) the temporal stability coefficient was strong, r = .70, p < .001. Test-retest reliability of the CES-D 10 total score across language group and background group was also acceptable, with Pearson’s correlations ranging from r = .42 to r = .78. However, within the third assessment time (n = 325), small sample sizes for Dominican As shown in Table 5, the CES-D 10 positively correlated with the STAI, r = .72, p < .001, negatively with the SF-12 MHC, r = −.65, p < .001 and the SF-12 PHC, r = −.25, p < .001. The CES-D 10 correlated positively and strongly with the PHQ-9, r = .80, p < .01.
Table 4.
Range | M | SE | α | Test-Retest (1–3 weeks) Pearson’s r (N = 325) |
Test-Retest (3–9 months) Pearson’s r (N = 5,313) |
|
---|---|---|---|---|---|---|
Overall | 0–30 | 7.30 | .05 | .82 | .70** | .53** |
Language | ||||||
English | 0–30 | 7.88 | .11 | .82 | .69** | .57** |
Spanish | 0–30 | 7.17 | .05 | .82 | .71** | .52** |
Background Group | ||||||
Dominican | 0–30 | 7.33 | .16 | .82 | NA | .48** |
Central American | 0–30 | 7.09 | .15 | .82 | .59** | .41** |
Cuban | 0–30 | 7.46 | .14 | .86 | .62** | .52** |
Mexican | 0–30 | 6.65 | .07 | .80 | .44** | .54** |
Puerto Rican | 0–30 | 9.12 | .13 | .82 | .59** | .55** |
South American | 0–30 | 6.69 | .18 | .82 | NA | .54** |
Note. NA = Assessment Time 3 had small sample size composition among the Dominican (n = 3) and South American (n = 21) background groups and therefore results are not presented for these groups.
Table 5.
Overall | English | Spanish | Dominican | Central American |
Cuban | Mexican | Puerto Rican |
South American |
|
---|---|---|---|---|---|---|---|---|---|
STAI | .72** | .77** | .71** | .71** | .70** | .75** | .71** | .77** | .71** |
Time 1 | |||||||||
SF-12 MHC | −.65** | −.68** | −.64** | −.63** | −.65** | −.71** | −.60** | −.68** | −.64** |
Time 1 | |||||||||
SF-12 PHC | −.25** | −.27** | −.24** | −.24** | −.24** | −.24** | −.20** | −.29** | −.15** |
Time 1 | |||||||||
PHQ-9 | .80** | .81** | .80** | NA | .62** | .83** | .77** | .86** | .87** |
Time 3 ( N =325) |
Note. CES-D 10 = Center for the Epidemiological Studies of Depression. STAI = Spielberger Trait Anxiety Inventory; SF-12 = Short-Form 12. MHC = Mental Health Component score. PHC = Physical Health Component score.
p < .01.
Confirmatory Factor Analysis (CFA)
Table 6 shows the model fit indices for the one-factor CES-D 10 model for the total sample. Based on the results of the CFI and RMSEA fit indices, this model did not yield an acceptable fit to the data (χ2 = 2637.35, df = 35, p < .001; CFI = .968; RMSEA = .069), as indicated by the RMSEA. The modification indices suggested correlating the residual variances of the two reverse-worded items of the CES-D 10 (i.e., item 5 “I felt hopeful about the future“ and item 8 “I was happy”) to improve model fit. After making this modification, the one-factor model yielded acceptable fit to the data (χ2 = 1197.46, df = 34, p < .001; CFI = .986; RMSEA = .047). All unstandardized factor loadings were statistically significant (values ranged from .22 to 2.01, ps < .001; standard errors ranged from .01 to .05 [data not shown]).
Table 6.
Model | S-Bχ2 | Df | P | CFI | RMSEA | Model Comparison | ΔCFI | Δ RMSEA |
---|---|---|---|---|---|---|---|---|
M1. One-factor baseline | 2637.35 | 35 | <.001 | .968 | .069 | -- | -- | -- |
M1a. One-factor baseline (modified) |
1197.455 | 34 | <.001 | .986 | .047 | -- | -- | -- |
M2. Configural | 1348.891 | 68 | <.001 | .985 | .049 | -- | -- | -- |
M3. Metric | 1260.756 | 77 | <.001 | .986 | .045 | M3-M2 | .001 | −.004 |
M4. Scalar | 2077.007 | 106 | <.001 | .976 | .049 | M4-M3 | −.001 | .004 |
Note. M1 = One-factor baseline model (free model). M1a = Modified baseline model (one-factor model with correlated residual variances of the two reverse-worded items, i.e., item 5 and 8). CFI = Comparative Fit Index; RMSEA = Root Mean Square Error of Approximation.
Multiple-Group CFA across Language
We conducted multiple-group analyses to test for measurement invariance of the one-factor structure of the CES-D 10 across English- and Spanish-language groups, retaining the better-fitting model in which the residual variances of the two reverse-worded items were correlated. Fit statistics for the configural, metric and scalar variance models, and their sequential model comparison between nested models are shown in Table 6.
Configural invariance
A multiple-group CFA was evaluated, with the overall factor structure constrained equal and factor loadings and item thresholds estimated freely across language groups. The model yielded acceptable fit (CFI = .985; RMSEA = .049), suggesting that the one-factor structure of the CES-D 10 is equivalent across language groups. As shown in Table 7, all unstandardized factor loadings were statistically significant in the English (.18 to 1.79, ps < .001) and Spanish-language group (.17 to 1.59, ps < .001).
Table 7.
Model | S-Bχ2 | Df | P | CFI | RMSEA | Model Comparison | ΔCFI | Δ RMSEA |
---|---|---|---|---|---|---|---|---|
M1. Configural | 1467.557 | 204 | <.001 | .985 | .049 | -- | -- | -- |
M2. Metric | 1303.701 | 249 | <.001 | .987 | .041 | M2-M1 | .002 | −.008 |
M3. Scalar | 2974.421 | 394 | <.001 | .969 | .050 | M3-M2 | −.018 | −.009 |
M3a. Scalar (modified) | 2312.386 | 385 | < .001 | .977 | .044 | M3a–M2 | −.010 | −.008 |
Note. CFI = Comparative Fit Index; RMSEA = Root Mean Square Error of Approximation. M3 = Partially invariant scalar model (no modifications). M3a = Partially invariant scalar model (Item 5 [free thresholds 1 and 2], item 8 [free thresholds 1 and 2], item 2 [free threshold 1], and item 7 [free threshold 3]) in the Mexican and Cuban background group).
Metric invariance
We tested metric invariance by constraining all factor loadings equal and estimating thresholds freely across language groups. As seen in Table 6, the metric invariance model fit well according to the descriptive fit indices (CFI = .986; RMSEA = .045). The sequential model comparison between nested models (metric vs. configural model) showed that the change in CFI was less than or equal to .01 (ΔCFI = .001, and the change in RMSEA was less than or equal to .015 (ΔRMSEA = −.004). Therefore, results indicate that the one-factor structure of the CES-D 10 has measurement invariance; factor loadings are equivalent across English- and Spanish-language groups.
Scalar invariance
A subsequent model constrained both factor loadings and item thresholds equal across language groups. As seen in Table 6, the scalar/threshold invariance model exhibited acceptable fit (CFI = .976; RMSEA = .049). In the sequential model comparison of nested models (scalar model vs. metric model), no salient differences in descriptive fit were noted (ΔCFI = −.01; ΔRMSEA = .004). These results indicate that item thresholds were invariant across English- and Spanish-language groups.
Multiple-group CFA across the Six Hispanic/Latino Background Groups
Configural invariance
Following the same procedure used to establish configural invariance between language groups, we examined the fit of the one-factor solution structure of the CES-D 10 across six Hispanic/Latinos background groups. Factor loadings and item threshold were estimated freely across groups. The configural invariance model exhibited adequate descriptive fit (CFI = .985; RMSEA = .049; see Table 7). As shown in Table 8, all unstandardized factor loadings were statistically significant across the six Hispanic/Latino background groups (ps < .001).
Table 8.
Spanish | English | |||
---|---|---|---|---|
Item | Loading | M (SD) | Loading | M (SD) |
Item 1 | 1.00 | .54 (.83) | 1.00 | .58 (.86) |
Item 2 | 1.17 | .67 (.93) | 1.17 | .82 (.96) |
Item 3 | 2.05 | .80 (.99) | 2.05 | .75 (1.00) |
Item 4 | 1.58 | .70 (1.01) | 1.58 | .98 (1.11) |
Item 5 | 0.28 | .84 (1.10) | 0.28 | .96 (1.09) |
Item 6 | 1.37 | .47 (.83) | 1.37 | .51 (.87) |
Item 7 | 1.07 | .89 (1.07) | 1.07 | 1.06 (1.13) |
Item 8 | 0.96 | .82 (1.01) | 0.96 | .87 (.95) |
Item 9 | 1.47 | .72 (1.03) | 1.47 | .73 (1.00) |
Item 10 | 1.26 | .72 (.95) | 1.26 | .62 (.91) |
Note. The factor loading for the first item was fixed to 1 to set the metric for the latent variable; all ps < .001.
Metric invariance
Subsequently, a metric invariance model was tested by constraining factor loadings equal and estimating item thresholds freely across Hispanic/Latino background groups. As seen in Table 7, the metric invariance model fit well descriptively (CFI = .987; RMSEA = .041). Moreover, the change in fit indices (ΔCFI = .002; ΔRMSEA = −.008) between increasingly restrictive nested models (metric vs. configural model) suggested that the factor loadings were invariant across background groups.
Scalar invariance
The descriptive fit indices showed that the scalar/threshold invariance model, in which both factor loadings and item thresholds were constrained equal across Hispanic/Latinos background groups, fit adequately (CFI = .969; RMSEA = .050; [see Table 7]). When comparing nested models (scalar vs. metric model), the change in RMSEA was acceptable (ΔRMSEA = .009), but the change in CFI was above the recommended cut-off (ΔCFI = −.018), suggesting that there was not full scalar/threshold invariance (i.e., equal thresholds for all items) across Hispanic/Latino background groups (see Table 7). Consequently, we tested for partial scalar/threshold invariance by releasing the equality constraints of item thresholds with the largest modification indices one at a time until ΔCFI provided evidence of invariance. As seen in Table 7, we released equality constraints (i.e., freed item thresholds) one at a time until a negative ΔCFI was lower than −.01. We had to release equality constraints for the following six item thresholds: Item 5 (thresholds 1 and 2), item 8 (thresholds 1 and 2), item 2 (threshold 1), and item 7 (threshold 3) in the Mexican and Cuban background group. No further modifications of item thresholds were needed to establish acceptable ΔCFI caused by scalar/threshold invariance constraints across Hispanic/Latino background groups. Therefore, results indicate partial scalar/threshold invariance across Hispanic/Latino background groups. Item thresholds were equivalent across Hispanic/Latino background groups (i.e., Dominicans, Central and South Americans, and Puerto Ricans) with the exception of the aforementioned items for Mexican and Cuban background groups.
Discussion
The present study is the first to comprehensively examine the psychometric properties of the CES-D 10 in a large and diverse sample of Hispanics/Latinos. Specifically, this study evaluated the internal consistency, test-retest reliability, convergent validity, factor structure and measurement invariance of the CES-D 10 in a heterogeneous sample of English- and Spanish-speaking Hispanics/Latinos.
Consistent with previous studies (Björgvinsson, Kertz, Bigda-Peyton, McCoy, & Aderka, 2013; Boey, 1999; Carpenter et al., 1998; Radloff, 1977; Yu et al., 2013), the CES-D 10 scores had acceptable internal consistency reliability in the current cohort. In alignment with previous research ( Boey, 1999; Radloff, 1977) among non-Hispanic White samples, test-retest reliability was also good and was strong within a 1–3 week timeframe, and moderate across a longer timeframe of 3–9 months. Convergent construct validity was established by the observed theoretically consistent patterns and magnitudes of correlations with other relevant self-report measures.
CFA results from the current study support the unidimensionality of the CES-D 10. These findings align with results from previous studies (Björgvinsson, Kertz, Bigda-Peyton, McCoy, & Aderka, 2013; Carpenter et al., 1998; Yu et al., 2013), which reported an adequate fit for a one-factor model (i.e., all items loading on one factor). In addition, our findings demonstrate strong measurement invariance across language groups and acceptable partial invariance across Hispanic/Latino background groups. In other words, the CES-D 10 measured the same underlying construct for both English- and Spanish-speaking participants and Hispanic/Latino background groups, these results have practical implications for researchers and clinicians. For example, since the CES-D 10 demonstrated no substantive differences in reliability or factor structure across language or background groups, future research that identifies differences in total depression scores across such groups can be more confident that they are attributable to true differences in depression symptoms, as opposed to differences stemming from measurement error artifacts.
Invariance of factor loadings across groups is required for valid comparisons of scale scores. However, strong and strict invariance may be less important in the context of basic research in which variation among groups may reflect differences that are relevant to the scientific investigation (Meredith & Teresi, 2006). The failure of any level of factorial invariance may arise because of the measure, population, or both. In other words, both the measure and the differences between the groups can contribute to the lack of measurement invariance. A perfect invariant measure is an elusive goal (Cheung & Reinsvold, 1999) due in part to the different interpretation of scale items across cultural groups due to diverse backgrounds. Consequently, it is not alarming that full measurement invariance was not established across background groups as strict factorial invariance is often difficult to establish particularly in cross-cultural research. In the present study, the same CES-D items (i.e., items 2, 5, 7, and 8) may have been viewed differently among the background groups (Mexican and Cuban groups, respectively). We recommend that future research examine measurement invariance at the item level using differential item functioning.
The present study provides evidence to support the use of the CES-D 10 in linguistically and ethnically diverse Hispanics/Latinos. Findings highlight that the CES-D 10 has strong psychometric properties and thus may maintain advantages over the original scale validated among non-Hispanic White respondents (Van Dam & Earleywine, 2011), which suggests that the CES-D10 can be used in lieu of the CES-D 20. Findings have important implications as the CES-D 10 may be more practical for clinical settings, and also in large studies that mandate a brief assessment of depression symptoms (Irwin et al., 1999; Lee & Chokkanathan, 2008).
There are some limitations to the current study. First, the current study may not be nationally representative of the general U.S. Hispanic/Latino population, given that participants were recruited from Miami, San Diego, the Bronx, New York City and Chicago. Second, we did not examine the relationship between the CES-D 10 with a gold standard assessment of depression (e.g., structured psychiatric interview). As such, the current study does not provide information regarding the utility of the proposed cut scores for the CES-D10. Future research would benefit from examining other forms of validity. Another study limitation is that invariance was not established across other demographic groups such as age, sex, and nativity. Despite these limitations, the present study extends the literature on the CES-D 10 in a heterogeneous, population-based sample of Hispanics/Latinos and several theoretical and clinical implications can be drawn from the findings.
Conclusions
In light of the growing diversity of Hispanic/Latinos in the U.S. population and the increasingly recognized importance of screening for depression in health settings, there is need for an effective depression screening measure that can be used in English- and Spanish-speaking Hispanic/Latinos of diverse backgrounds. The current findings indicate that the CES-D 10 has strong psychometric properties, making it a viable measurement tool for assessing depression symptoms among Hispanics/Latinos in research or clinical settings.
Table 3.
CES-D 10 | M | SD | |
---|---|---|---|
Item 1 | I was bothered by things that usually don’t bother me. | 0.55 | 0.84 |
Item 2 | I had trouble keeping my mind on what I was doing. | 0.69 | 0.94 |
Item 3 | I felt depressed. | 0.79 | 0.99 |
Item 4 | I felt that everything I did was an effort. | 0.75 | 1.03 |
Item 5▪ | I felt hopeful about the future. | 0.86 | 1.10 |
Item 6 | I felt fearful. | 0.48 | 0.84 |
Item 7 | My sleep was restless. | 0.92 | 1.08 |
Item 8▪ | I was happy. | 0.83 | 1.00 |
Item 9 | I felt lonely. | 0.72 | 1.03 |
Item 10 | I could not “get going”. | 0.70 | 0.94 |
Note. Items 5 and 8 are reversed coded items.
Acknowledgments
The Hispanic Community Health Study/Study of Latinos is funded by contracts from the National Heart, Lung, and Blood Institute (NHLBI) to the University of North Carolina (N01-HC65233), University of Miami (N01-HC65234), Albert Einstein College of Medicine (N01-HC65235), Northwestern University (N01-HC65236), and San Diego State University (N01-HC65237). The following Institutes/Centers/Offices contribute to the HCHS/SOL through a transfer of funds to the NHLBI: National Center on Minority Health and Health Disparities, the National Institute of Deafness and Other Communications Disorders, the National Institute of Dental and Craniofacial Research, the National Institute of Diabetes and Digestive and Kidney Diseases, the National Institute of Neurological Disorders and Stroke, and the Office of Dietary Supplements. The HCHS/SOL Sociocultural Ancillary Study was supported by grant 1 RC2 HL101649 from the NHLBI/NIH. The authors thank the staff and participants of HCHS/SOL and the HCHS/SOL Sociocultural Ancillary Study for their important contributions.
Footnotes
Conflict of Interest. The authors report no conflicts of interest. The authors along are responsible for the content and writing of this paper.
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