Re-evaluation of Optimal Re-synchronisation Therapy in Patients With Chronic Heart Failure - An Investigator-initiated, Event-driven, Prospective, Parallel-group, Randomised, Open, Blinded Outcome Assessment (PROBE), Multi-centre Trial Without Investigational Medical Products (Proof of Strategy Trial)
Overview
- Phase
- Not Applicable
- Intervention
- Not specified
- Conditions
- Chronic Heart Failure
- Sponsor
- Helios Health Institute GmbH
- Enrollment
- 959
- Locations
- 113
- Primary Endpoint
- Time from randomisation to the occurrence of all-cause death
- Status
- Terminated
- Last Updated
- 2 years ago
Overview
Brief Summary
The objective of the study is to demonstrate that in patients with chronic heart failure who receive optimal medical treatment for this condition and have indication for Cardiac Resynchronisation Therapy, the implantation of a pacemaker (index group) is not inferior to defibrillator (control group) with respect to all-cause mortality.
Detailed Description
Heart failure is a leading cause of death, hospitalisation, impaired quality of life and health expenditure. Symptoms and survival can be significantly improved by implantation of a device for Cardiac Resynchronisation Therapy (CRT). CRT devices are available as biventricular pacemakers (CRT-P) or as significantly more complex and cost-intensive biventricular defibrillators (CRT-D). In patients who have previously experienced a life-threatening arrhythmia, the choice of the CRT-D (and not the CRT-P) is imperative but these are a small minority of patients. For the vast majority of patients receiving CRT therapy, there is currently considerable uncertainty as to whether the defibrillator function is needed and whether its benefits outweigh its risks. The defibrillator function may protect patients from sudden cardiac death. On the other hand, device-associated complications such as device infections appear to be increased; furthermore the defibrillator comes along with specific adverse events, particularly inappropriate shocks. These shocks are common and not only traumatic to patients (potentially leading to post-traumatic stress syndrome, anxiety disorders and depression), they also are negatively associated with overall survival. The objective of the trial is to demonstrate that in patients with chronic heart failure who receive optimal medical treatment for this condition and have indication for CRT, the implantation of a CRT-P (index group) is not inferior to CRT-D (control group) with respect to all-cause mortality. Patients with an indication for CRT will be randomised to CRT-P or CRT-D. RESET-CRT is an event-driven trial with a planned number of randomised and treated patients of at least n=1,356 (maximum of 2,004) and of 361 primary endpoints within an estimated median follow-up period of about 29 to 40 months. No investigational medical product is defined to be used within RESET-CRT since only the therapeutic strategy (CRT-D versus CRT-P) is a pre-defined study treatment and allocated by random group (Proof of Strategy Trial). The devices to be implanted will be decided by the treating physician on the basis of the situation of the individual study patient and in line with local policies in routine clinical care. Duration of study period: Enrolment of 1,356 patients is expected to be completed within 52 months after inclusion of the first patient, i.e., by 31 December 2022. With an overall annual event rate between 9.0% and 12.5%, 361 primary endpoints will have occurred within 9 to 20 months of randomisation of the last patient (between 30 September 2023 and 31 August 2024). Under these circumstances, the total study duration will be between 62 and 73 months. The Steering Committee of the study might prolong the recruitment period, for instance by 12 months, in the event of an unexpected slower recruitment rate or an overall event rate \< 9.0% for the primary endpoint. For individual patients, the expected median follow-up time is between 29 and 40 months, with a minimum between 9 and 20 months and a maximum between 61 and 72 months. Follow-up may be prolonged by 12 months in the event of a prolonged recruitment period.
Investigators
Eligibility Criteria
Inclusion Criteria
- •Age ≥18 years.
- •Symptomatic chronic heart failure due to ischemic or non-ischemic cardiomyopathy with NYHA class II, III or ambulatory IV.
- •Reduced left ventricular ejection fraction ≤35% in transthoracic echocardiography (TTE) or cardiac magnetic resonance imaging (MRI) assessed verifiably within 4 weeks prior to or on the day of enrolment.
- •On Optimal Medical Therapy (OMT) for at least 3 months prior to enrolment.
- •Class I or IIa indication for implantation of a device for cardiac resynchronisation therapy (according to 2016 Guidelines of the European Society of Cardiology for the diagnosis and treatment of acute and chronic heart failure).
- •Signed informed consent.
- •Exclusion criteria:
- •Class I or IIa indication for implantation of an ICD for secondary prevention of sudden cardiac death and ventricular tachycardia (according to the 2015 Guidelines of the European Society of Cardiology for the management of patients with ven-tricular arrhythmias and the prevention of sudden cardiac death).
- •Violation of Instruction For Use of the selected device by at least one of the random group treatments.
- •Ventricular tachycardia induced in an electrophysiological study.
Exclusion Criteria
- Not provided
Outcomes
Primary Outcomes
Time from randomisation to the occurrence of all-cause death
Time Frame: Randomization to end of study (event-driven, expected about 9 to 20 months after last patient in)
Time from randomisation to the occurrence of all-cause death
Secondary Outcomes
- Time from randomisation to first composite of Major Adverse Cardiac Event (MACE)(Randomization to end of study (event-driven, expected about 9 to 20 months after last patient in))
- Changes in quality of life (EQ-5D) comparing inclusion/enrolment with 12 and 24 months(at baseline, 12 and 24 months after randomisation)
- Time from randomisation to death from cardiac causes(Randomization to end of study (event-driven, expected about 9 to 20 months after last patient in))
- Time from randomisation to sudden cardiac death(Randomization to end of study (event-driven, expected about 9 to 20 months after last patient in))
- Time from randomisation to life-threatening arrhythmias(Randomization to end of study (event-driven, expected about 9 to 20 months after last patient in))
- Time from randomisation to first hospitalisation for cardiovascular reasons(Randomization to end of study (event-driven, expected about 9 to 20 months after last patient in))
- Nights spent in hospital for cardiovascular reasons per year of follow-up(Randomization to end of study (event-driven, expected about 9 to 20 months after last patient in))
- Number of hospital readmissions for cardiovascular reasons after randomisation(Randomization to end of study (event-driven, expected about 9 to 20 months after last patient in))
- Total cost of treatment as compound endpoint of MACEs, number of hospital days for cardiovascular reasons and ambulatory visits for cardiovascular reasons(Randomization to end of study (event-driven, expected about 9 to 20 months after last patient in))