Objective: To evaluate the effects of the angiotensin converting enzyme inhibitor perindopril on six minute walking distance and quality of life in very old patients with left ventricular systolic dysfunction.
Design: Prospective, double blind placebo controlled trial.
Setting: Medicine for the elderly day hospital.
Patients: 66 patients (average age 81) with left ventricular systolic dysfunction identified by echocardiography.
Interventions: 10 weeks of treatment with titrated doses of perindopril or placebo.
Main outcome measures: Six minute walking distance 10 weeks following treatment, quality of life measurements including the Minnesota living with heart failure questionnaire and the 36 item short form health survey.
Results: In patients with left ventricular systolic dysfunction, six minute walking distance was significantly increased in the treatment group (37.1 m) compared with the placebo group (−0.3 m, p < 0.001). The medication was well tolerated and there were no significant adverse events.
Conclusions: Six minute walking distance is improved considerably by treatment with perindopril in older patients with heart failure caused by left ventricular systolic dysfunction.
- heart failure
- six minute walking distance
- quality of life
- CANTAB, Cambridge neuropsychological test automated battery
- LIhFE, Minnesota living with heart failure
- NYHA, New York Heart Association
- SF-36, 36 item short form
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- CANTAB, Cambridge neuropsychological test automated battery
- LIhFE, Minnesota living with heart failure
- NYHA, New York Heart Association
- SF-36, 36 item short form
Chronic heart failure is a major health concern and the only major cardiovascular disorder with an increasing incidence and prevalence.1,2 Age itself is a strong predictor for heart failure and most new cases present in elderly patients.3 Heart failure caused by left ventricular systolic dysfunction can be extremely difficult to diagnose in elderly patients because of associated comorbidity.4,5
Clinical trials using angiotensin converting enzyme (ACE) inhibitors have shown clear benefits in the treatment of heart failure caused by left ventricular systolic dysfunction.6,7 Unfortunately, elderly patients have been largely excluded from these studies 8,9 and are underrepresented in the major clinical trials in chronic heart failure.10,11 This has major implications for clinical practice, as the majority of patients seen in day to day clinical practice are elderly and as a group quite different from those patients in the major clinical trials. For the elderly patient, quality of life issues may be as important as any mortality benefit from treatment. The average age of patients recruited to the major trials of chronic heart failure was 61, whereas the median age of patients in Europe with heart failure is 74–76 years.12,13 Elderly patients with heart failure are less likely to be investigated and treated for heart failure.12,14,15 One explanation may be that clinicians are reluctant to extrapolate the findings of the major trials to frail older patients in whom the benefits of treatment are less clear.16 There have been recent calls for further research specifically in elderly patients with heart failure.13,17,18 In response to this call, we have performed a randomised double blind placebo controlled trial to determine the effects of perindopril on exercise capacity, quality of life, and cognitive function in elderly patients with congestive heart failure caused by left ventricular systolic dysfunction.
The study was a prospective double blind, randomised, placebo controlled trial. All patients provided written informed consent and the study was approved by the Tayside committee on medical research ethics. Patients were recruited as outpatients by a single centre from four local hospitals, each with day hospital facilities. Patients were eligible for the study if they were aged 70 years or over, they were ACE inhibitor naïve, objective evidence of left ventricular systolic dysfunction on echocardiography was present, and they had a history of symptomatic heart failure. Patients were excluded if they had evidence of significant aortic outflow obstruction, hypotension (systolic blood pressure < 90 mm Hg), serum creatinine concentration > 200 μmol/l, mental score questionnaire results < 6/10, terminal illness, or were wheelchair bound.
All patients underwent full clinical assessment and echocardiography. Echocardiographic examination was performed by a single experienced sonographer (SDH) using either a Toshiba Corevision system or Sim 7000 Challenge system. Standard apical and parasternal views were obtained with patients supine in the left lateral position. Left ventricular systolic dysfunction was defined by left ventricular size (> 57 mm), fractional shortening (< 25%), and regional wall motion score (< 1.2). Overall left ventricular function was then qualitatively graded as mild, moderate, or severely impaired. Patients were stabilised on their current cardiovascular treatment and had their fluid balance optimised before randomisation. For each patient, serum biochemistry and full blood count were measured. Six minute walking distance, quality of life, and cognition were assessed using the methods discussed under outcome measures.
Patients were stratified into four convenience sample groups: outpatients in atrial fibrillation (14), outpatients in sinus rhythm (33), day hospital patients in atrial fibrillation (7), and day hospital patients in sinus rhythm (12). Within each stratum, patient packs were randomised to active or placebo by using a restricted randomisation with a block size of four. This was achieved by having the medication supplied prerandomised into blocks of four and sequentially numbered. Separate sets of medication were supplied for each stratum. As patients entered the trial they were allocated medication in sequence in their stratum. Both patients and clinicians were blind, as intervention and placebo packs were identical, medication was in pill form, and treatment and placebo were identical in appearance and taste. Medication was dispensed to patients at study entry and each patient's ability to open the childproof top of the container was assessed. If they had difficulty opening the childproof top they received a standard top.
This was performed in day hospital. After completing baseline outcome measures patients received a test dose, between 10 am and 11 am, of either perindopril 2 mg or placebo and were monitored for the next four hours. Blood pressure (lying and standing) and symptoms were recorded before they took the dose and at 30 minutes, 60 minutes, 120 minutes, 180 minutes, and 240 minutes after.
Following randomisation patients were clinically assessed at one week and three weeks and blood pressure, electrolytes, and symptoms were recorded. Patients stable at the three week visit had their dose of medication doubled (to 4 mg perindopril or placebo). At 10 weeks patients returned to day hospital and six minute walking distance, quality of life, and cognitive function were again recorded. The researchers involved in outcome measurements remained blind to treatment allocation throughout the trial. Final blood pressure, electrolytes, and symptoms were recorded. Compliance was assessed by tablet counting. On completion the treatment code was broken by a researcher who was not involved in the day to day conduct of the trial. Each patient's general practitioner was then informed which treatment the patient had received with a note of the patient's progress.
The primary end point was the change in six minute walking distance over the 10 week treatment period. The six minute walk test has been validated as a safe, reliable, and repeatable measure of functional status and exercise capacity in elderly people.19–23 Tests were conducted using a standardised approach over a 25 m course. Patients used their usual walking aids and received standardised encouragement at regular intervals. The number of stops and total distance walked in six minutes were recorded to the nearest metre. Subgroup analysis was planned to compare the six minute walking distance in day hospital with that of outpatients and to compare patients with mild symptoms (New York Heart Association (NYHA) functional classes I and II) versus those with moderate to severe symptoms (NYHA III and IV). Patients were recruited from all NYHA categories: I-2, II-27, III-35, and IV-2.
Secondary outcome measures were change in quality of life and cognitive function. Quality of life was assessed with the generic 36 item short form (SF-36) health survey and disease specific Minnesota living with heart failure (LIhFE) questionnaire. The SF-36 has been validated as a repeatable measure of health status and is responsive to change in patients with cardiac disorders.24,25 The LIhFE questionnaire has been validated in clinical trials as a measure of change in cardiac status in patients with chronic heart failure.26–28 Both questionnaires were administered by an interviewer (JR) in keeping with previous studies in elderly people.29
Cognitive function was assessed with the Cambridge neuropsychological test automated battery (CANTAB), which uses a computerised touchscreen to assess cognitive function objectively. Tests begin at a simple level and are non-verbal in nature, therefore avoiding problems of language and understanding. CANTAB tests have been established to be sensitive to drug treatments and are repeatable, allowing accurate assessment of cognitive function over a period of time.30,31 Five tests were used to assess cognitive function: motor screening, reaction time, pattern recognition memory, simultaneous and delayed matching to sample, and spatial span.
We predicted that a final sample size of 204 recruited over 22 months would have 90% power to detect an increase in six minute walking distance (assuming a standard deviation of 22 m) of 10 m at p < 0.05. A mean distance of 360 m walked in six minutes was anticipated. Sample size estimation allowed for an estimated 20% drop out rate over two months. Data were entered on and analysed using the SPSS-10 statistical package (SPSS, Chicago, Illinois, USA). Change in six minute walking distance and questionnaire scores were normally distributed and analysed using two sample Student's t test. Three of the CANTAB measures had a skewed distribution and were compared using the Mann-Whitney U test (motor screening, reaction time, delayed matching to sample). The other two measures were normally distributed and analysed using two sample Student's t test (pattern spatial recognition memory, spatial span).
Only 115 potentially eligible outpatients were identified from four hospitals over 22 months from January 1998 to November 2000, less than our originally predicted sample size. Forty two patients were excluded before randomisation for a variety of reasons (fig 1). Seventy three patients were randomly assigned to treatment and 66 patients completed the study. Seven patients withdrew, five on perindopril and two on placebo, but this group did not differ significantly in baseline characteristics from those completing the study. Reasons for withdrawal for the perindopril group were allergic rash (1), test dose hypotension (1), deteriorating renal function (1), gastrointestinal upset (1), and withdrawal of consent (1). In the placebo group they were gastrointestinal upset (1) and a patient unknowingly prescribed ACE inhibitor by a general practitioner before randomisation (1).
Both groups were similar in baseline and demographic variables (table 1). The median age of patients recruited was 81 years (range 68–93 years). Sixty four per cent (42 of 66) of patients were over the age of 80 and 48% (32 of 66) were either in sheltered housing or receiving regular social support. Forty four per cent (29 of 66) required a walking aid, 55% (36 of 66) were prescribed four or more medications, and 15% (10 of 66) could not open the childproof lock and required a normal top. Seventy four per cent (23 of 31) of patients in the treatment group tolerated a dose increase at three weeks compared with 94% (33 of 35) in the placebo group. The reasons for failure to increase dose were hypotension (3), symptoms (4), and deterioration in renal function (1) in the perindopril group, and symptoms (2) in the placebo group. Eighty seven per cent (27 of 31) of patients in the treatment group and 89% (31 of 35) in the placebo group had > 85% compliance with medication assessed by tablet counting.
Six minute walking distance
Mean walking distance at baseline in the perindopril and placebo groups was 274 and 277 m, respectively. Patients randomly assigned to perindopril significantly improved their mean walking distance compared with those in the placebo group (p < 0.001) with a mean increase of 37 m in the mean walking distance at 10 weeks. Mean walking distance did not change in the control group (−0.3 m; table 2). Almost all patients in the treatment group improved their walking distance (fig 2).
Patients who were in NYHA functional class I or II (n = 29) improved significantly with perindopril (36.1 m v 2.0 m, p < 0.05) as did those who were in NYHA III or IV (n = 37) (38.2 m v –1.7 m, p = 0.003). Patients recruited to the study were in all NYHA classes and although there were more patients in NYHA class III in the placebo group, this was not significant in terms of outcome.
Quality of life questionnaires
Both the perindopril and placebo groups' mean SF-36 scores improved slightly after 10 weeks (7.3 and 4.7, respectively). The mean LIhFE scores (5.4 perindopril group, 4.8 placebo group) also improved. However, neither group had any significant change in either the eight dimensions of the SF-36 or the LIhFE total score (table 2).
No significant differences in change in mean scores were detected between the two groups. In three of the five tests—that is, motor screening, pattern recognition, and spatial span tests—the improvement in the perindopril group approached significance (p = 0.08, 0.05, and 0.08, respectively) (table 2).
Perindopril was generally well tolerated. Figure 3 summarises the mean blood pressures in each group during the test dose and follow up. Sixteen patients in the perindopril group and 12 in the placebo group had a systolic blood pressure drop of > 20 mm Hg during the four hours following the test dose, all of whom were asymptomatic. Three patients in the treatment group and two in the placebo group had a drop of 40 mm Hg. Only one patient had symptoms with the test dose and had to be withdrawn from the study.
There was no significant change in renal function in either the treatment or placebo groups (table 2). Six patients in each group had a rise in serum creatinine > 25 μmol/l at one point during the study. One patient in the perindopril group had to be withdrawn from the study because of deteriorating renal function (rise in serum creatinine > 40 μmol/l, to 244 μmol/l, with a rise in serum potassium to 5.6 mmol/l). However, this patient had a pre-existing moderate renal impairment (serum creatinine 196 μmol/l) and renal scarring secondary to recurrent urinary tract infections. This person was considered to be at risk of deterioration in renal function before randomisation, and renal function returned promptly to baseline after discontinuing the study medication.
Eight patients in the treatment group and five in the placebo group complained of cough and no patients withdrew form the study because of this. Patients in both groups complained of mild dizziness (four in each group) and mild gastrointestinal upset (two in the treatment group and three in the placebo) but no significant differences were detected between the groups.
This is the first randomised placebo controlled trial that assessed the effects of ACE inhibition on six minute walking distance and quality of life in very old patients. Perindopril significantly improved the six minute walking distance compared with placebo but had no effect on quality of life measures. Mean six minute walking distance significantly increased by 37 m (increase of 13.5%) in the treatment group. Perindopril improved the walking distance in both the less symptomatic (NYHA I or II) and the more symptomatic patients (NYHA III or IV). This suggests that elderly patients with mild symptoms may derive just as much improvement in walking distance as the more symptomatic patients.
The quality of life as assessed with the two validated questionnaires did not differ between the two groups. The scores of both groups improved slightly, with the perindopril group showing a greater but non-significant improvement. Although the quality of life questionnaires were the best available they are probably not ideally designed for this cohort of patients. Some of the questions used were not relevant to all older people—for example, questions relating to occupation and sexual activity. The study was powered to detect a change in the primary end point (six minute walking distance) and significantly larger numbers would be required to detect changes in the quality of life measurements.
Cognitive function assessed by CANTAB did show improvements in three tests in the treatment group compared with the placebo group. However, none of these achieved significance. What we can say more securely is that there was no deterioration in cognitive test performance in the treatment group. Cognitive impairment is common in old age and frequently present in elderly patients with cardiac disease.32,33 The finding that ACE inhibitors had no detrimental effects on cognitive function in elderly patients with chronic heart failure is of note. Previous studies in patients with hypertension have suggested that ACE inhibitors may have beneficial effects on cognitive function while other cardiac medications may be detrimental.34–36 Further studies are merited to determine whether treatment with ACE inhibitors results in significant change in cognitive function in older people. The impact of ACE inhibitors on morbidity, including cognitive function, in elderly patients with normal systolic function is being evaluated.37
Treatment was well tolerated with only one patient developing significant hypotension and one other renal impairment. There were no significant symptoms in patients receiving the test dose and no patients had a significant deterioration in renal function. The test dose was given in a day room with the patients sitting in a chair under minimal supervision. The results suggest that perindopril is safe to initiate in the day hospital setting. The lack of problems with this first dose raises the possibility that most such patients may not need any special monitoring, which would facilitate treatment in general practice.
The findings of this study, although novel, should be interpreted cautiously until further data become available. The numbers of patients are relatively small and as such the power of the study is limited. However, the effect on six minute walking distance was highly significant (p < 0.001). Much larger numbers of patients would be required to detect an impact on quality of life and a multicentre study would probably be required.
Before this study there was a remarkable lack of evidence to justify the use of ACE inhibitors in the frail elderly patient with heart failure, despite heart failure being a common, debilitating condition in this group. Reluctance to investigate and use ACE inhibitors in this group of patients may stem from a recognition that very old patients have so many attributes that make them very distinct from patients in the ACE inhibitor megatrials. They have numerous comorbidities and are often already on polypharmacy. Investigation is often minimal because of limited resources in many health care systems. They are thought to suffer more adverse drug effects such as renal dysfunction, dizziness, and hypotension. Finally, improving mortality is not seen as the “prime goal” in treating such patients, which made the ACE inhibitor megatrial findings less relevant to this group. This study firmly dispels such reservations. Despite comorbidity, multiple medications, and extreme age of the patients, perindopril improves the clinically relevant end point of walking distance and does so without producing significant side effects. This study provides a powerful evidence base to justify the widespread use of ACE inhibitors even in very old patients with left ventricular systolic dysfunction.
This project was funded by an education grant from Servier Laboratories Ltd. We thank Mrs Jess Robson (research sister) for patient assessment and data collection. The assistance of the staff at Dundee, Monifieth, Perth, and Stracathro Day Hospitals is gratefully acknowledged. We also thank the Dundee Levi-Strauss Community Action Group for providing the funds to purchase the portable echocardiography machine. Finally we thank the patients who participated in the study for their time and assistance with the study.
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