Validity, reliability, and responsiveness of the Kansas City Cardiomyopathy Questionnaire in anemic heart failure patients

The STudy of AneMia IN A Heart Failure Population (STAMINA-HFP) was a prospective registry of 1,090 HF patients who were initially enrolled in the outpatient clinics of 58 U.S. cardiology centers. The purpose of STAMINA-HFP was to estimate the incidence and prevalence of anemia in patients with HF and to describe the association of anemia with HF progression. As such, the protocol mandated an initial clinical history and physical exam (including assignment of the New York Heart Association [NYHA] classification), a measurement of patients’ hemoglobin, and an assessment of their health status, including the KCCQ. Enrolled patients were contacted by telephone within 1–2 days after their initial enrollment and every 3 months for a period of 1 year to assess their health status. In addition, data from outpatient visits during the year of observation were abstracted at each visit. To be eligible for participation, patients had to be >18 years of age, diagnosed with a history of symptomatic HF and willing to provide informed consent. Patients who had a prior organ transplant, were planning a major surgery, or were participating in another interventional trial were excluded. Data capture was completed in the STAMINA-HFP registry in July 2004. Patients participating in this study (n = 811) had to have complete baseline health status assessments and a measure of hemoglobin. They were slightly more likely to be white (75% vs. 68%, P = 0.03) and to not smoke (90% vs. 86%, P = 0.03) but had similar distributions of NYHA class, KCCQ scores, and hemoglobin as compared with the entire cohort of 1,090 patients. For the longitudinal assessments of test–retest reliability and responsiveness, a 3-month health status assessment was also required from these patients (n = 698). At the time of follow-up interviews, a patient global assessment of change question, asking patients to describe ‘how [they] think [their] condition has changed compared to the start of the study,’ was also asked at each follow-up interview. Responses were on a 7-point categorical response scale ranging from ‘markedly improved’ to ‘markedly worse.’ The initial 3-month assessment was used for this study because it was the closest assessment to the time of their anemia evaluation and because it had the shortest recall period with which to assess patients’ perspectives of clinical change of any of the other assessments.

The KCCQ is a 23-item, disease-specific measure that quantifies four clinically relevant domains of patients’ health status including physical limitations, symptoms (frequency, severity, and change over time), a heart failure-specific assessment of their quality of life and their perceived social limitations due to heart failure, and a self-efficacy domain (a measure of patients’ knowledge of how to best manage their disease). The four health status scales can be combined into a single, overall summary score [10]. Scores range from 0–100, where higher scores indicate better functioning, fewer symptoms, and better disease-specific quality of life. The KCCQs validity and reproducibility have been previously supported and recent studies have demonstrated that both cross-sectional variations [25, 26] and changes [27] in KCCQ scores are prognostic of subsequent mortality and HF hospitalizations. A mean difference between groups of patients and an intra-individual change over time of ≥5 points is considered clinically significant. This was established in two studies: a prospective study of 476 outpatients in which a mean change of five points in the KCCQ overall summary scale was observed in those patients who experienced a small, but clinically significant change in their heart failure [28] and in a prospective study of 1,358 HF patients in which a 5-point change was associated with an 11% change in the multivariable-adjusted hazard ratio of hospitalization and cardiovascular death [27].

Patients were classified as being anemic or not based upon their hemoglobin at the time of study enrollment. Thus, the patients’ hemoglobin value at baseline determined their anemia status throughout the remainder of the study. The World Health Organization (WHO) definition of anemia was used (hemoglobin <13 g/dl for men, <12 g/dl for women).

To evaluate the construct validity of the KCCQ in anemic and nonanemic patients, comparisons across NYHA classifications from the baseline interviews were conducted. A two-way ANOVA with KCCQ overall summary score as the dependent variable and baseline anemia classification, NYHA, and an anemia-by-NYHA interaction term as independent variables was constructed to establish whether the association of NYHA and KCCQ was different in patients with and without anemia.

Both internal consistency and test–retest reliability estimates were compared among anemic and nonanemic patients. Internal consistency reliability was estimated using Cronbach’s alpha. This value was calculated independently for patients with and without anemia. Test–retest reliability was performed using a t test, by comparing the 3-month change in KCCQ scores for patients who responded on the global change in health question that their condition was stable over the previous 3 months. Three months was selected as the interval of analysis to maximize the number of patients included in the analyses, to leverage the existing data in which a 3-month interval was selected, and to replicate the time frame of the original validation studies evaluating the KCCQ [10].

Overall, 811 patients completed the baseline clinical assessments, including the KCCQ interview, and were used to assess baseline construct validity and internal consistency reliability. Only 4% of the population had KCCQ scores of 100, suggesting a minimal ceiling effect of the instrument in this population. Among the patients who completed the baseline assessments, 268 (33%) met the WHO criteria for anemia. Baseline characteristics of the anemic and nonanemic patients are provided in Table 1. Compared to nonanemic patients, anemic patients were significantly more likely to be older than (mean ± SD = 67 ± 13 vs. 63 ± 14 years, P < 0.001), non-Caucasian (30% vs. 23%, P = 0.03), and to have an ischemic HF etiology (46% vs. 38%, P = 0.04), diabetes (47% vs. 34%, P < 0.001), lower glomerular filtration rate (GFR) (50.8 ± 24.6 vs. 63.9 ± 23.1 ml/min/m², P < 0.001), chronic renal insufficiency (33% vs. 15%, P < 0.001), higher serum creatinine (1.7 ± 1.5 vs. 1.3 ± 1.2 mg/dl, P < 0.001), worse NYHA class (44% vs. 32% class III or IV, P < 0.001), lower KCCQ scores (61 ± 23 vs. 65 ± 23, P = 0.009), and to be treated with diuretics (90% vs. 84%, P = 0.04).

For the longitudinal analyses of test–retest reliability and responsiveness, 698 (86.1%) patients provided both baseline and 3-month assessments. No statistically significant differences in any of the patient characteristics listed in Table 1 were observed between those who did and did not participate in the 3-month interviews. Notably, no difference in anemia classification (33.0% among participants vs. 33.6% in those without follow-up, P = 0.89) or mean hemoglobin (13.2 ± 1.8 vs. 13.2 ± 2.1, P = 0.94) was observed between those with and without follow-up.

Figure 1 illustrates the relationship between the overall KCCQ score by NYHA class in anemic and nonanemic patients. Mean KCCQ scores tracked strongly with NYHA class (mean summary score ± SE for the entire population = 80.3 ± 1.6, 68.0 ± 1.0, 50.9 ± 1.2, and 45.6 ± 5.4 for NYHA classes I–IV respectively, P < 0.0001). While the mean KCCQ scores for the patients with NYHA class IV differed substantially, this was likely due to the small numbers of patients in these subgroups, resulting in a large standard deviation of scores (KCCQ scores in anemic [n = 12] and nonanemic [n = 7] patients = 39.5 ± 20 vs. 56.2 ± 28). Furthermore, the relationship between KCCQ and NYHA did not differ significantly between anemic and nonanemic patients (P = 0.38 for interaction).

The internal consistency reliability (Cronbach’s alpha) of the KCCQ overall summary score for the entire population was 0.93. In patients who were anemic and nonanemic, the Cronbach alphas were 0.92 and 0.93, respectively.

The mean (±SE) KCCQ overall summary score change in patients who reported no change over 3 months in their clinical condition (n = 257) was −1.2 ± 0.7. Among anemic patients (n = 73) the mean change was −2.8 ± 1.4, and for nonanemic patients (n = 184) the mean change was −0.5 ± 0.8. These mean 3-month changes were similar between anemic and nonanemic patients (P = 0.14). Importantly, the change between and within both groups was less than five points over time and, thus, not considered clinically significant. The intraclass correlation coefficient for the KCCQ overall summary score was 0.885 in the overall cohort and did not differ among those with and without anemia (0.865 for anemic patients and 0.892 for nonanemic patients [P = 0.11]).

To compare the sensitivity of the KCCQ to patients’ perceptions of change, the mean change in KCCQ scores across each category of change were compared in anemic and nonanemic patients. Figure 2 describes the means and 95% confidence intervals of change in KCCQ scores across crude categories of improved (mild to marked), no change, and worsening (mild to marked) of their overall clinical status during the first 3 months of the study. No significant differences by anemia status were detected within any of the three categories of reported health change. In regression analysis, mean 3-month KCCQ change was found to be linearly related to reported health change, with a slope of −2.7 points (95% CI = [−3.6, −1.9]) per 1 step down on the Likert-scale response. Nonlinearity was tested using cubic splines and was found to be nonsignificant (P = 0.68). The association was consistent in both anemic and nonanemic patients (slope estimates = −3.4 [95% CI = (−5.0, −1.8)] vs. −2.5 [95% CI = (−3.4, −1.6)], P-value = 0.33).