Introduction

Arthritis affects approximately 46.4 million people in United States (US) [1], is the leading cause of physical disability, and has a detrimental effect on health-related quality of life (HRQOL) [2]. Measuring and monitoring population HRQOL can help guide public policy by identifying vulnerable populations, tracking population trends, and assessing the impact of established policies on HRQOL relative to established national averages [3]. HRQOL measures summarize multiple dimensions of health into a single score, and several measures are available to capture the physical, mental, and social dimensions of health [4]. Disease-specific measures for arthritis such as the Arthritis Impact Measurement Scales (AIMS) [5, 6] or the Health Assessment Questionnaire (HAQ) [7] ask patients about selected activities and experiences that are generally assumed to be affected by the disease. Generic HRQOL indexes are not targeted to a specific disease experience, but instead attempt to summarize function and well-being across a comprehensive set of domains that are conceptualized to underpin health as experienced by an individual. Preference-based generic indexes are scored by summarizing across health domains using so-called preference weights, systematically collected from a general population sample of adults. These utility-based measures summarize multiple domains and place overall wellness on a continuum ranging from 0.0 (health state of dead) to 1.0 (health state of perfect or full health) using measure-specific community preference-weighted scoring functions. These measures can be used to adjust survival time for quality of life and are designed to yield quality-adjusted life years (QALYs) that can be used in cost-effectiveness analysis.

Population-level HRQOL data have been reported for several chronic diseases, including arthritis [2, 822]. Ko and Coons reported US-based EuroQol-5D (EQ-5D) scores for chronic conditions (including arthritis) from the US population and reported relative HRQOL decrements associated with various chronic conditions [22]. Anderson and colleagues assessed decrements in Quality of Well-Being (QWB) associated with self-reported arthritis in the National Health Interview Survey (NHIS) data [15]. Mo and colleagues analyzed Health utilities Index (HUI) in the Canadian Community Health Survey (CCHS) for 2000–2001 and reported that arthritis/rheumatism has a severe impact on HRQOL [19]. However, no study has directly compared commonly used HRQOL measures in a population-based survey in United States.

The present study assesses the impact of self-reported arthritis in the US adult population using six widely used generic indexes and provides reference HRQOL values for these measures in people with arthritis.

Materials and methods

We utilized data from the National Health Measurement Study (NHMS) [23]—a national cross-sectional sample of adults in United States where EuroQol-5D (EQ-5D) [24], Health Utilities Index Mark 2 (HUI2) [25], Health Utilities Index Mark 3 (HUI3) [26], SF-6D (a summary index derived from the SF-36v2™ questionnaire) [27], Quality of Well-being Scale self-administered form (QWB-SA) [28], and the Health and Activities Limitations index (HALex) [29] were all administered via a telephone interview to each respondent.

NHMS was a random digit-dialed (RDD) telephone interview of a sample of 3,844 adults aged 35–89 years, designed to represent the older half of the non-institutionalized US population in 2000 (median age was 36.4 years, http://factfinder.census.gov) from the continental United States [23]. People aged 65–89, and telephone exchanges with high percentages of African Americans were oversampled. When a household with at least one resident aged 35–89 was contacted, one of the three age ranges (35–44, 45–64, 65+) was sampled using pre-specified weights favoring older ages to determine who if anyone would be interviewed. If there were more than one person in the selected age range, the Troldahl-Carter-Bryant method [30] was used to select a respondent. At most one person was selected per household. Each respondent completed the six HRQOL instruments. Our case definition of arthritis was based on self-reported arthritis [1, 31]: “Have you ever been told (by a doctor or other health professional) that you had arthritis?” This definition is thought to provide credible overall arthritis surveillance with acceptable sensitivity and specificity [32, 33] and has been used in other population surveys [1, 31].

HRQOL instruments

The six HRQOL indexes are described in Fryback et al. [23]. Briefly, the EQ-5D, which we computed using US weights [34], is a five-question index asking about mobility, self-care, restrictions of usual activities, pain/discomfort and anxiety/depression. The SF-6D [27] is constructed using 11 of 36 questions from the widely used SF-36v2™ [35]. The SF-6D uses questions concerning physical function, limitations in role functioning, social function, pain, mental health, and vitality. The HUI2 [25] and HUI3 [26] are related measures computed from the Health Utilities Index questionnaire. The HUI2 defines health status on six domains (sensation, mobility, emotion, cognition, self-care, and pain—we excluded an optional fertility dimension). HUI3 addresses vision, hearing, speech, ambulation, dexterity, emotion, cognition, and pain. The QWB-SA summarizes functioning and mobility, physical activity, and social activity, but also collects extensive information about 58 symptoms/problem complexes. The four domains into a single score QWB-SA [28]. Finally, the HALex [29] is an index-constructed post hoc to use data collected by the recurring NHIS. HALex combines level of physical activity restriction with self-rated health (excellent, very good, good, fair, poor) and derives single weighted score using preferences from the HUI.

Three indexes, EQ-5D, HUI2, and HUI3 allow scores less than 0.0 to reflect health states considered worse than dead by the general population samples from which those indexes’ weighting schemes were derived.

Statistical analysis

To allow analyses to reflect the target US population, observations in the NHMS data set are supplied with survey weights computed first as the inverse sampling probability for each participant based on the sampling scheme and then post-stratified to the US Census 2000 population by age, gender, and race [23]. Descriptive statistics (Table 1) and mean estimates of the six HRQOL indexes (Table 2, Fig. 1, “Appendix”) incorporated these weights using the “svyset” collection of commands available in STATA10.2 (Stata Corp., College Station, TX).

Table 1 Characteristics of adults with and without self-reported arthritis
Table 2 Unadjusted mean (SE) HRQOL index score of US adults aged 35–89 by gender, age, and arthritis
Fig. 1
figure 1

Means (SE) estimating non-institutionalized US population health-related quality-of-life (HRQOL) by age are shown for self-reported arthritis and no arthritis using 6 standardized indexes. The mean estimates are adjusted for gender, race, level of education, annual household income body mass index, and the presence or absence of the following self-reported health care professional-diagnosed comorbidities: coronary heart disease, diabetes, stroke, COPD, and sleeping disorder

Unadjusted estimates of the six HRQOL indexes, stratified by age, gender, and arthritis category, were computed as the survey-weighted mean and standard error (SE) of the index for each age/gender/arthritis combination (Table 2). Age-groups were defined as 35–44, 45–54, 55–64, 65–74, and 75–89. Estimates stratified by age-group and arthritis category were then recomputed adjusting for demographic variables and comorbidities selected based on Table 1 (see Fig. 1, “Appendix”). Under this approach, the HRQOL index is modeled as a continuous variable using survey-weighted linear regression. Predictors in the model consist of dummy variables for age-group and arthritis category, the interaction of age-group and arthritis category, and the following: gender, race (White, African American, Other), level of education (less than high school, high school, some post-high school, 4-year college degree or higher), household income (<$20,000, $20,000–$34,999, $35,000–$74,999, >$75,000), body mass index (BMI) as a continuous variable, and the presence or absence of the following self-reported health care professional-diagnosed comorbidities: coronary heart disease, diabetes, stroke, COPD, and sleeping disorder. We did not adjust for depression as mental health is represented in each of 6 HRQOL indexes. The following covariates were centered to the US Census 2000 population proportions where possible and to survey means and proportions from NHMS when census data were not available (centering values provided in parentheses): male gender (0.474), BMI (27.6), history of coronary heart disease (0.092), history of stroke (0.039), diabetes (0.122), COPD (0.131), and sleeping disorder (0.080). For k-level categorical variables, k-1 indicator variables each centered to the population or survey proportion for the appropriate level were incorporated into the model as follows: race (African American: 0.105, other race: 0.086), education (high school: 0.286, some post-high school: 0.273, 4-year college degree or higher: 0.244), and income level ($20,000–$34,999: 0.183, $35,000–$74,999: 0.353, $75,000+: 0.249). Estimates of HRQOL mean and SE of the mean for each age-group/arthritis category were found by applying the appropriate post-estimation linear contrast involving the intercept term, dummy variables for age-group and arthritis category, and age-group-by-arthritis interaction terms.

Results

Briefly, NHMS showed 3,844 adults aged 35–89 were reached by random digit telephone sampling, representing an estimated response rate of 56% between June 2005 and August 2006. The unweighted sample constituted of 57.3% women, 44% aged 65–89, and 28% African American (Table 1) [23]. The rough estimate for response rates (based on comparing the age distribution weighted by inverse sampling probability with that weighted by post-stratification weights) was as follows: 39% for age 35–44 years, 67% for age 45–54 years, 69% for age 55–64 years, 55% for age 65–74 years, and 59% for age 75–89 years. The six indexes generally showed similar patterns of decrease with mean scores.

In the present analysis, the estimated population prevalence of self-reported arthritis in the 35–89 age range of non-institutionalized individuals was 31%, or 44.2 million adults among the 141.2 million US adults represented by NHMS in the Census 2000 population. Similar prevalence estimates were found in other large national surveys in the United States (Table 3). People with arthritis were more likely to be women, older, of lower socioeconomic status, and had more self-reported comorbidities (Table 1) than were those not reporting arthritis.

Table 3 Arthritis in four nationally representative data sets for ages 35–89

Adults with arthritis had lower mean HRQOL than adults without arthritis in all gender by age-groups for each of the six HRQOL indexes (Table 2). The EQ-5D means were highest for each age stratum; HUI2, HUI3, SF-6D, and HALex means were in the mid-range; and QWB-SA were the lowest for the arthritis and non-arthritis groups. Women with arthritis had lower mean HRQOL indexes in the 55–89 age-groups (except for HUI2 where women and men had the same mean score of 0.68 for the 55–64 age-group). Women and men without arthritis had similar mean HRQOL scores for all 6 indexes when stratified by age-groups.

Results of the adjusted analyses are shown graphically in the Fig. 1 (and “Appendix”). Each subpanel corresponds to an HRQOL index and the estimated HRQOL mean across the age-groups is presented separately for patients with and without arthritis. Error bars correspond to 95% confidence intervals based on the standard errors estimated from the models. Tests of the set of age-group-by-arthritis interaction terms were non-significant and suggest that the arthritis effect remains constant across the age-groups. Similar to unadjusted models (Table 2), for individuals reporting arthritis, the HRQOL scores were highest for EQ-5D and lowest for QWB-SA for all age-groups. In general, the HRQOL scores declined from 35- to 64-year age-groups and then showed a “bump up” in the 65–74-year age-group for both arthritis and non-arthritis groups.

Discussion

Using a large nationally representative population-based survey, we show that adults with self-reported arthritis have lower HRQOL scores than adults who did not report arthritis after adjusting for age and sex and even after adjusting for several covariates. This was seen across the six HRQOL instruments. In addition, our study provides important national age-related reference averages for six HRQOL indexes for adults with self-reported arthritis that can be used in future decision and cost-effectiveness analyses.

Arthritis is very common in age groups 35–89 years and a major contributor to HRQOL in the US population. The prevalence of arthritis has been steadily increasing [1, 36]. We found a 31% prevalence of self-reported arthritis by the NHMS study. Previous surveys that differ in age-groups targeted and how arthritis was defined have shown similar prevalence. In the Medical Expenditures Panel Survey Household Component (MEPS-HC; computer-assisted personal interviewing), the prevalence of arthritis in 35–89 age-group was 30% in 2003 [37] (Table 3). In two other national representative surveys, the US Valuation of the EuroQol EQ-5D Health States Survey in 2002 (USVEQ; self-administered with interviewer present) [24] and Joint Canada/United States Survey of Health from 2002 to 2003 (JCUSH; telephone survey) [38], the prevalence of self-reported arthritis for ages 35–89 was consistently estimated at around 30% (Table 3).

One of our interesting results is the declining HRQOL scores in the 35–64 age-group seen in both arthritis and non-arthritis groups and then a trend toward an improvement in their HRQOL in the 65–74-year age-group. This interesting finding was also reported for the whole cohort in the original publication from the NHMS [23]. Fryback et al. suggest that this may relate to reporting bias of poor HRQOL in 55–64 age-group (baby boomers) or greater HRQOL in 65–74 age-group (recent retirees). Another potential reason may be selective non-participation in the survey by age and health around retirement age. Perhaps, more healthy people in the 55–64 age-group may be too busy, or perhaps, less healthy people in the 65–74 group may be too ill to participate.

Our data have important implications for public policy. First, our analysis provides age-related HRQOL scores for six commonly used measures that can be used in future decision and cost-effectiveness analyses. The US Public Health Service Panel on Cost-Effectiveness in Health and Medicine [39] recommended using HRQOL scores based on preference weights derived from the general public, rather than from patients, for cost-effectiveness analyses. The indexes used here meet this requirement. We provide population-based estimates of HRQOL burden for each age-group-by-arthritis stratum. Second, previous studies have found that the minimally important difference in HRQOL preference-based scores—the smallest difference in scores that patients perceive as beneficial [40]—is about 0.03, with a range from 0.01 to 0.10 [4143]. The differences in HRQOL scores between arthritis and non-arthritis groups in our study exceed the minimally important difference and are thus clinically meaningful. Third, as previously reported, each of the six HRQOL measures provides different scores associated with the impact of arthritis, thus choice of measure can affect estimates of quality-adjusted life years (QALYs) gained by an intervention and thus different incremental cost-effectiveness estimates. In an analysis of treatment of rheumatoid arthritis with combination of infliximab and methotrexate versus methotrexate alone, Marra et al. [44] showed that the four HRQOL measures (EQ-5D, HUI2, HUI3, and SF-6D) provided different QALYs and therefore different incremental cost-effectiveness scores. In their analysis, HUI3 produced the largest incremental QALYs gain followed by EQ-5D, HUI2, and SF-6D. It may be necessary for analysts doing cost-effectiveness analyses to agree upon a common measure of HRQOL in order to standardize analytic results.

Our survey is not without limitations. NHMS was administered using a random digital dial telephone survey, which may have had somewhat higher response rates among people who are more educated and/or with higher household incomes compared with US Census figures for the year 2000. Thus, the NHMS may have reached somewhat more healthy persons [23]. Although the question eliciting arthritis diagnosis has been widely used in similar surveys, cases were not verified by examination or medical records. People responding to telephone surveys tend to report slightly better health than those responding to self-administered, paper, and pencil questionnaires [45]. Telephone-based health surveys were apparently little affected by cell phone usage in the timeframe of the NHMS [46].

In conclusion, this study provides important national reference averages for six HRQOL indexes for adults with self-reported arthritis for future decision analysis and cost-effectiveness analysis.