Diastolic Heart Failure Clinical Trial
— PREFECTUSOfficial title:
Heart Failure With Preserved Ejection Fraction Treated by Cardiac Resynchronisation Therapy Versus Rate Responsive Pacing: A Mechanistic Study
Verified date | June 2023 |
Source | Cardiff and Vale University Health Board |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
Half of patients with heart failure have normal heart pumping function (Heart failure with Preserved Ejection Fraction, HFpEF), most commonly characterised by breathlessness on exercise. A number of mechanisms are responsible, but frequently patients are unable to raise their heart rate on exercise. This can be treated by a 'rate-responsive pacemaker' (RRP), which detects exercise and increases the heart rate accordingly. Some beneficial effects on echocardiographic parameters have been reported with exercise programmes. However, evidence based treatment options are limited in this group and therapy mainly relies on water tablets and treatment of blood pressure. Cardiac resynchronisation therapy (CRT) is a technique using specialised 'biventricular' pacemakers that is well established in heart failure with reduced pump function. Patients who respond to this treatment have lower risk of death and hospitalisation and usually feel better. CRT is not currently used in HFpEF. The PROSPECT trial showed that some patients with relatively preserved heart function exhibited similar benefits to those with poor pump function, but this has not been formally tested. CRT aims to make the heart beat in a more synchronised way. Patients with HFpEF commonly have evidence of reduced heart synchronisation. The investigators plan to assess the feasibility of using a prospective cohort study to assess the incremental benefit of CRT over and above RRP in patients with HFpEF. 10 patients with HFpEF and insufficient heart rate will be recruited and will undergo exercise testing, heart scanning and symptom questionnaires. A biventricular pacemaker will be implanted and programmed to RRP for 12 weeks before repeating the tests. After this, the investigators will non-invasively programme the pacemaker to CRT for 12 weeks and repeat the functional tests. If incremental benefit is shown with CRT the echocardiograms will be analysed in detail to determine the mechanism of change. The study participants will be invited to continue their involvement in a study extension. This will involve non-invasively programming the pacemakers to optimise their function guided by the results of the echocardiograms in the first two phases of the study. After a further 12 weeks, the functional assessments will be repeated. If no benefit is seen with CRT after initial analysis, the participant involvement will end.
Status | Completed |
Enrollment | 10 |
Est. completion date | May 30, 2022 |
Est. primary completion date | May 30, 2022 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years and older |
Eligibility | Inclusion Criteria: - Confirmed HFpEF as described above - Chronotropic incompetence as described above - Ongoing exertional breathlessness of NYHA Grade II or worse - Ability to understand and sign written consent form - Males and females, age >18 years - Ability to participate in follow-up appointments at 3 and 6 months post-implantation - Ability to complete a cardiopulmonary exercise test Exclusion Criteria: - Any contraindication to implantation of permanent pacemaker, namely unresolved infective process or sepsis, vascular access difficulties, advanced neoplastic process, expected lifespan less than 1 year or patient choice - Ejection fraction <50% - Known valvular disease graded severe or moderate-to-severe - Cardiac arrhythmia (paroxysmal or persistent) within 1 year of recruitment - Exertional chest pain suggestive of angina or personal history of coronary artery disease without subsequent revascularisation, or coronary angiogram within the past 5 years demonstrating >50% stenosis in = 1 epicardial coronary artery - Significant chronic lung disease (FEV1 <80%) - Inability to complete follow-up process for any reason not defined above |
Country | Name | City | State |
---|---|---|---|
United Kingdom | Cardiff and Vale University Health Board | Cardiff | Mid Glamorgan |
United Kingdom | Cardiff Metropolitan University | Cardiff | Mid Glamorgan |
Lead Sponsor | Collaborator |
---|---|
Cardiff and Vale University Health Board | Abbott, Cardiff Metropolitan University |
United Kingdom,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Other | Drop-out rate | A measure of the number of participants who fail to complete the study processes, to inform further studies using a similar design | At 24 weeks (or if study extension used, then following completion of this 6-week extension) | |
Primary | Diastolic reserve index | The change in e' between rest and exercise, as measured by tissue Doppler in the septal and/or lateral left ventricular walls on echocardiography. To be expressed using the formula: [change in e'] x [1-(1/e' at rest)]. e' is the peak diastolic velocity of the myocardium during passive left ventricular filling. | After 12 weeks of rate responsive pacing and again after 12 weeks of biventricular pacing; study extension: after 6 weeks of optimised pacing | |
Primary | Systolic reserve index | The change in s' between rest and exercise, as measured by tissue Doppler in the septal and/or lateral left ventricular walls on echocardiography. To be expressed using the formula: [change in s'] x [1-(1/s' at rest)]. s' is the peak systolic velocity of the myocardium. | After 12 weeks of rate responsive pacing and again after 12 weeks of biventricular pacing; study extension: after 6 weeks of optimised pacing | |
Secondary | Global longitudinal strain | Peak systolic strain of 6 myocardial segments measured on echocardiography by speckle tracking, measured both at rest and on exercise | After 12 weeks of rate responsive pacing and again after 12 weeks of biventricular pacing; study extension: after 6 weeks of optimised pacing | |
Secondary | Left ventricular torsion | The twisting movement of the heart can be quantified with echocardiography using speckle tracking at rest and on exercise. | After 12 weeks of rate responsive pacing and again after 12 weeks of biventricular pacing; study extension: after 6 weeks of optimised pacing | |
Secondary | Exercise duration | Cardiopulmonary exercise testing will be used with standard local protocols to evaluate exercise duration. | After 12 weeks of rate responsive pacing and again after 12 weeks of biventricular pacing; study extension: after 6 weeks of optimised pacing | |
Secondary | Oxygen carrying capacity | Measurement of peak ventilatory capacity (VO2 max) using cardiopulmonary exercise testing with standard local protocols, ensuring a respiratory exchange ratio of greater than 1.1 to guarantee near-maximal exercise achieved. This will be assessed using expired gas analysis, which is a standard technique. | After 12 weeks of rate responsive pacing and again after 12 weeks of biventricular pacing; study extension: after 6 weeks of optimised pacing | |
Secondary | Distance walked in a six-minute walk test | Subjects walk down a pre-measured course, usually a hallway or corridor, and their distance achieved after six minutes is recorded. | After 12 weeks of rate responsive pacing and again after 12 weeks of biventricular pacing; study extension: after 6 weeks of optimised pacing | |
Secondary | New York Heart Association Function Class | Standard measure of heart failure severity that correlates with outcomes. Assessed using measures of impairment in activities of daily living, such as dressing, walking. | After 12 weeks of rate responsive pacing and again after 12 weeks of biventricular pacing; study extension: after 6 weeks of optimised pacing | |
Secondary | Minnesota Living with Heart Failure Quality of Life Score | Change in Minnesota living with heart failure questionnaire score. This questionnaire asks 21 questions relating to daily tasks of living, hobbies, social life and well-being in relation to heart failure symptoms and ascribes greater points to more severe symptoms; a higher score is therefore indicative of a lower quality of life. Scores may range between 0 and 105. | After 12 weeks of rate responsive pacing and again after 12 weeks of biventricular pacing; study extension: after 6 weeks of optimised pacing | |
Secondary | Prognostic biomarkers | Measurement of serum N-terminal pro-B-type Natriuretic Peptide, a commonly used marker of ventricular wall stretch that correlates with heart failure severity and is adversely associated with prognosis. | After 12 weeks of rate responsive pacing and again after 12 weeks of biventricular pacing; study extension: after 6 weeks of optimised pacing |
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