Measurement of quality of life in pulmonary hypertension and its significance

Pulmonary hypertension (PH) comprises a group of uncommon disorders of the pulmonary circulation, characterised by a progressive increase in pulmonary arterial pressure (PAP), often leading to right heart failure and death 1. After the exclusion of left-sided heart disease and chronic lung disorders, pulmonary arterial hypertension (PAH) and chronic thromboembolic pulmonary hypertension (CTEPH) represent the two main disease categories. Until recently, the prognosis of idiopathic PAH has been poor, with a median survival of <3 yrs 2. However, since the widespread use of the various new treatment options, the long-term prognosis of PAH has significantly improved 3. Although there are several reports on a potentially beneficial effect of vasodilator therapy in CTEPH, a recent randomised trial of inhaled iloprost found a significantly smaller response in these patients compared with those with PAH 4.

More than 20 yrs ago, the first series of patients with PAH included primarily haemodynamic parameters as prognostic variables, such as mixed venous oxygen saturation (S_v,O2) 5, right atrial and pulmonary artery pressures, and cardiac index 2. Later, however, it became evident that baseline haemodynamic variables were poorly predictive, whereas functional aspects, such as New York Heart Association (NYHA) class and 6-min walking distance (6-MWD), had become the most relevant prognostic indicators 3.

In recent years, aspects of quality of life or, more specifically, health-related quality of life (HRQOL) have emerged as important clinical end-points, economic factors and, possibly, predictors of prognosis. However, only a few randomised trials in PH have included quality-of-life instruments 6. Moreover, there are so far only sparse reports on the application, performance and potential prognostic value of HRQOL measurements in patients with PH 7–9. Therefore, a prospective evaluation of the Minnesota Living with Heart Failure (MLHF) questionnaire was undertaken in a series of patients with PH with respect to its reproducibility, validity, responsiveness and prognostic significance.

METHODS

RESULTS

The baseline characteristics of the 48 study patients are shown in table 1⇑. Two-thirds were female, and most were in NYHA/WHO functional class III or IV (90%). PAH was slightly more frequent than CTEPH. The mean 6-MWD was 362 m (95% CI 318–406), and the mean PAP was 51 mmHg (95% CI 46–56).

Ten patients died, four patients with PAH underwent lung transplantation and three with CTEPH underwent pulmonary endarterectomy. There was no significant difference in the time taken to reach an adverse clinical event between patients with PAH and those with CTEPH (data not shown).

The test–re-test reliability of the MLHF score was r = 0.94 for the total score, r = 0.93 for the physical subscore, and r = 0.90 for the emotional subscore (all p<0.001).

The correlation matrix is shown in table 2⇑. The correlations between the MLHF score and its subscore r-values were between 0.72 and 0.92. Cronbach's alpha coefficient as a measure of internal consistency reliability was 0.92 for the total MLHF score and 0.88 for each of the two MLHF subscores.

As shown in tables 2⇑ and 3⇓, the correlations of the MLHF scores and the NYHA/WHO functional class, the Borg scale and the S_v,O2 were moderate to moderately strong. Whereas the MLHF physical subscore correlated moderately with the NYHA/WHO functional class, the 6-MWD, the Borg scale, the cardiac index and the S_v,O2. The MLHF emotional subscore correlated only moderately with the Borg scale and moderately strongly with the NYHA/WHO functional class, respectively. For the other parameters, including the PAPs, the correlations were weak to absent. The correlations between the MLHF scores and the various variables with respect to the PAH and CTEPH subgroup of patients are shown in table 3⇓. Remarkably, in contrast to the population as a whole, the right atrial pressure correlated moderately with the MLHF overall and the physical subscore in PAH patients.

In patients with NYHA/WHO functional class II, III and IV, the total MLHF score was 27 (95% CI 9–45), 41 (34–48) and 62 (55–69), respectively (p <0.001 for class III versus IV).

The response to vasodilator treatment could be evaluated in 38 patients after a mean follow-up time of 1 yr. As shown in table 4⇓, treatment improved (i.e. decreased) the MLHF scores significantly. The improvements in the overall score and the physical subscore had moderate effects of -0.48 and -0.54, respectively. These values were surpassed only by those of the NYHA/WHO functional class (-0.57). The 6-MWD improved by 50 m (95% CI 16–83). The respective effect, however, was rather low (0.32). The Borg scale and the right ventricular systolic pressure did not improve significantly.

In the univariate model assessment of the prognostic role of the various parameters, the MLHF score and the Borg scale were the sole predictive factors of the noninvasive variables (table 5⇓). As in the correlative analysis, also with respect to prognosis, neither the right ventricular systolic pressures measured by Doppler echocardiography nor the mean pressure determined by right heart catheterisation had any prognostic significance. The other haemodynamic variables, however, had a significant prognostic role in the univariate model; the mixed venous saturation was the best predictor of adverse outcome.

When all the noninvasive and invasive parameters were introduced into a multivariate model, only the MLHF score remained significant (p = 0.015). Patients with a MLHF score of ≤40 had a significantly better overall outcome than those with a score of >40 (fig. 1⇓). The respective survival curves were comparable for PAH (the overall mortality was 14 versus 48% for a MLHF score of <40 versus ≥40) and CTEPH patients (the overall mortality was 0 versus 57% for a MLHF score of <40 versus ≥40). These differences, however, were not significant due to the low number of patients in each group.

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Fig. 1—

Kaplan–Meier estimates of likelihood of not reaching the end-points of death, lung transplantation or pulmonary endarterectomy. Patients with a Minnesota Living with Heart Failure score of ≥40 (———) had a significantly worse prognosis than those with a score of <40 (-------; p = 0.0018; multivariate analysis p = 0.015).

DISCUSSION

The present study demonstrates a high test–re-test and internal consistency reliability, as well as a moderate validity and responsiveness of the MLHF questionnaire in the assessment of HRQOL in patients with PH. Moreover, a multivariate analysis including various other noninvasive and invasive parameters of disease severity showed that the MLHF score remained the sole significant prognostic variable.

Currently, there are three papers specifically addressing quality of life in PH 7–9. The Papworth group has recently designed a new PH-specific tool with the acronym CAMPHOR (Cambridge Pulmonary Hypertension Outcome Review), which consists of the following three scales: 1) overall symptoms (made up of energy, breathlessness and mood subscales); 2) functioning; and 3) quality of life 7. The CAMPHOR scales had good internal consistency (Cronbach's alpha = 0.90–0.92) and reproducibility (test–re-test correlations = 0.86–0.92). Shafazand et al. 8 used the general Nottingham Health Profile questionnaire and the disease-specific Congestive Heart Failure Questionnaire in 53 patients with PAH, and found moderate-to-severe impairments in all items compared with population normalities. Patients receiving epoprostenol reported more energy and had better emotional scores. Taichman et al. 9 found a decrease in all HRQOL domains of the SF-36® and of the respiratory-disease specific Saint George's Respiratory Questionnaire. The 6-MWD correlated better with HRQOL (r = 0.62), as did the NYHA/WHO functional class. Haemodynamic measurements, however, showed no correlation with HRQOL.

In the present study, the reproducibility of the MLHF scores assessed by test–re-test correlations was ≥0.90. These values were comparable with those of the CAMPHOR Study 7, as well as with those of the original study (≥0.88) in patients with left heart failure, for whom the MLHF score was initially designed by Rector and Cohn 19.

The reliability of internal consistency of the MLHF scores in the present authors’ PH patients was good (Cronbach's alpha ≥0.88), and thus comparable with the values found in the above-mentioned heart failure study 19, as well as in the CAMPHOR series 7. However, it has to be mentioned that these high Cronbach's alpha values might also indicate some redundancy in the questions used in the MLHF questionnaire.

The validity of the MLHF questionnaire was assessed by correlating the MLHF scores with various noninvasive and invasive baseline clinical indicators of disease severity. There was a moderate-to-moderately strong correlation of all scores with the Borg scale and NYHA/WHO functional class, the latter being comparable with the respective values of the CAMPHOR score (r = 0.57–0.62 and 0.47–0.62, respectively) 7. The 6-MWD correlated only moderately with the MLHF physical subscore (r =  -0.42) This was comparable with the respective value of the quality-of-life subscale of the CAMPHOR score (r =  -0.41) 20, but lower than that of the overall symptom (r =  -0.53) and functioning (r =  -0.63) subscales of that score, as well as the SF-36 (r = 0.62) used by Taichman et al. 9.

Most of the correlations in the present series were comparable with those of the MLHF scores with oxygen deficit, exercise duration and peak oxygen consumption, respectively, in left heart failure patients (r = 0.33–0.61) 11, 19, 21. In addition, the validity of the MLHF questionnaire in the present authors’ PH patients is highlighted by its good discrimination between different stages of severity assessed by the NYHA/WHO functional class. The mean value of 41 (95% CI 34–48) for NYHA/WHO class III was comparable with the values of patients with left heart failure in NYHA class II or III (45; 95% CI 43–47) in the Studies of Left Ventricular Dysfunction (SOLVD) study 21.

Interestingly, apart from cardiac index (r =  -0.48 with physical subscore) and the S_v,O2 (r =  -0.45 and r =  -0.59 with overall score and physical subscore, respectively), in analogy to the findings of Taichman et al. 9, the other haemodynamic parameters, especially PAPs, did not correlate with the MLHF scores. Historically, along with data from the National Institute of Health cohort 2, invasive haemodynamic measurements were used as a primary end-point in the first epoprostenol trial 15. However, it soon became clear that resting haemodynamics were only loosely correlated with the clinical state, functional class, exercise capacity, response to therapy and prognosis. In this respect, Castelain et al. 22 have shown that improvement in exercise tolerance during epoprostenol therapy is mainly ascribable to a decrease in the incremental pulmonary vascular resistance during exercise. Thus, determination of PAPs at rest may only poorly reflect maximum circulatory and functional capacity.

Responsiveness of the MLHF questionnaire was investigated by calculating the effect sizes of the changes in its scores during vasodilator therapy (table 4⇑). The MLHF scores significantly improved (i.e. decreased) after a mean treatment period of 1 yr. Although the improvements in the overall score and physical subscore had only a moderate effect size, their responsiveness was surpassed only by the NYHA/WHO functional class. All other noninvasive measurements had a lower effect size. The Borg scale and right ventricular systolic pressure did not improve significantly during vasodilator therapy. The current authors think that the main reason for these only moderate effect size values is the relatively small number of patients in the present series, which results in rather high sds and thus substantially influences the respective calculations 18. A clue to this interpretation might be the improvement in the 6-MWD of 50 m (95% CI 16–83, p = 0.001) in patients in the present study, which was comparable with figures in the large PH trials 15, but resulted in an effect size of only 0.32. The fact that the changes in MLHF scores were comparable with those of the 6-MWD in larger treatment trials, but that the former resulted in a larger effect size, might be due to a higher precision of the MLHF score, as the effect size is calculated by dividing the difference between the mean values at baseline and at follow-up by the pooled sds, i.e. the precision of both values 18.

The net improvements in HRQOL in the present study (-10; 95% CI -5– -15) were comparable with those in the two heart failure studies using the MLHF questionnaire, namely the enalapril (SOLVD) and the pimobendan trial, with improvements in overall score of -5 and -8, respectively 21. Notably, there was no improvement in HRQOL assessed by the MLHF questionnaire in six other left heart failure studies, as summarised by Berry and McMurray 21.

Examining the prognostic impact of the different variables, it was found that the MLHF score, the Borg scale and the haemodynamics, except the PAPs, were significant predictors of outcome in the univariate analysis. In the multivariate model, however, only the MLHF score remained as a significant prognostic factor. This finding is intriguing and difficult to explain. As reviewed by Benyamini and Idler 23, 24, there are almost 50 studies that have examined self-perceived health and mortality in the general population, and most of them found that respondents with self-perceived poor health have a two to seven times higher mortality than subjects with self-perceived excellent health, even when all other medical data were taken into account. Several possible explanations for this phenomenon have been discussed, among them inadequate statistical controls for some variables, confounding factors, the influence of external resources, such as social contact and support, and internal resources, including general well-being, optimism, or religion 25, 26. In addition, Idler and Kasl 26 hypothesised that, first, the perception of one's own health status has some beneficial or detrimental effect on the individual's subsequent morbidity and mortality and, secondly, that there is a self-perceived area of variation in morbidity and mortality through the individual's inherent knowledge about “silent” biological risk factors, medical conditions or personal lifestyle.

With respect to HRQOL in specific medical conditions, there are several studies in patients with left heart diseases that are in line with the present series showing an independent significant correlation of HRQOL and subsequent prognosis, even in a setting of other covariates with high prognostic impact 21. At least one of these series also included the MLHF questionnaire 27. The investigators proposed that there may be a psychological state characterised by reduced vigour, lack of initiative and withdrawal from activities of daily living associated with an increased mortality, and that active engagement in daily life serves as a protective mechanism. In addition, it is conceivable that measurements of HRQOL reflect more globally various parameters of well-being or general health status than single variables, such as NYHA/WHO functional class, 6-MWD or haemodynamics. In addition, HRQOL may be affected by more than just the symptoms of a specific disease. For example, in the PRECISE trial there was no significant difference in the MLHF score between carvedilol and placebo, despite a significant increase in ejection fraction and a significant decrease in the combined risk of morbidity and mortality 21. This was probably due to an increase in adverse reactions, including dizziness, fatigue, syncope and bradycardia, in the active treatment group. Thus, measurements of HRQOL assess a wide variety of physical, psychological and social parameters that are collated into an overall score reflecting general health probably more adequately than any single physiological variable. Moreover, a recent study found that in addition to cardiac index and acute vasoreactivity, low serum albumin and being of African-American or Asian descent were independent predictors of outcome in PAH 28. These findings add to the present authors’ notion that so-far neglected or unknown biological or socio-economic factors may be crucial for disease-specific prognosis.

The MLHF questionnaire was included in the large treprostinil trial 29. Although there are no precise data given, in contrast to the present series, only the physical subscore changed significantly in the 233 patients receiving active treatment (p = 0.0064), possibly reflecting the overall poor average improvement in exercise capacity of only 16 m in this study. In the second, beraprost trial 30, in accordance with the absence of a clinical benefit, none of the MLHF scores was found to have improved. However, in patients with CTEPH, pulmonary endarterectomy resulted in an impressive improvement in HRQOL measured by the SF-36 31. Post-operatively, the patients scored only four out of eight composite health concepts slightly lower compared with the normal population.

The following limitations of the present study have to be mentioned. First, only a relatively modest number of patients could be included. However, the present authors think that in consideration of the fact that most of their present results are plausible, highly consistent and significant, a beta error is improbable. Secondly, the inclusion of patients with PAH and CTEPH might compromise the validity of the present study. However, both conditions share pathophysiological, clinical and possibly prognostic features. In addition, it has to be mentioned that in the CAMPHOR evaluation study, both groups of patients were included 7. Thirdly, it has to be mentioned that the very low number of pulmonary endarterectomies in the present series, as well as the inclusion of this most often curative operation as an adverse clinical event, may be questionable, even though the operation carries a significant risk of mortality ranging from 5% in experienced centres up to 25% in some smaller series.

In conclusion, the present series demonstrate a high reproducibility and internal consistency reliability as well as a moderately good validity and responsiveness of the Minnesota Living with Heart Failure questionnaire in pulmonary hypertension, supporting its plausibility as a disease-targeted assessment tool in these patients. Most interestingly, a multivariate analysis showed that the Minnesota Living with Heart Failure score remained as the sole prognostic parameter. Thus, health-related quality of life indices, such as the Minnesota Living with Heart Failure score, may provide additional clinical and prognostic information in patients with pulmonary hypertension.