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Cardiac resynchronization is a recommended therapy for patients with advanced heart failure, under optimized medical treatment with reduced left ventricular ejection fraction and prolonged QRS, nevertheless, still 30% of the population do not respond to standard biventricular implantation.
Non-response can be explained by a combination of factors including sub-optimal patient selection, placement of the pacing lead over a zone of slow conduction, insufficient correction of mechanical dyssynchrony including sub-optimal lead implantation. Few data distinguish true non-responders from patients in which effective resynchronization was not delivered through standard biventricular implantation.
Triple-site cardiac resynchronization pacing (stimulation at three ventricular sites) has been proposed to improve synchrony and thus the response rate in (Cardiac Resynchronisation Therapy) CRT recipients.
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The frequent failure of CRT in non-Left Bundle Branch Block (non-LBBB) patients is suspected to be due to more complex and heterogeneous forms of electrical/mechanical dyssynchronies needing more complex and individualized pacing configurations to be corrected.
Acute studies during implant show that standard biventricular pacing provides optimal mechanical improvement only in a minority of patients. In a peri-operative echo-guided leads placement procedure most of non-improved patients could be successfully mechanically resynchronized. A significant number of patients required optimized placement of right ventricular (RV) lead and/or triple-site configurations.
These studies led to the hypothesis that more complex and individualized pacing configurations (Triple-site biventricular) might increase the number of responders to CRT.
To assess this hypothesis, this study will be conducted in Class II-ambulatory IV patients indicated for CRT with wide QRS (≥ 140 ms) and non-LBBB. Patients will be randomized in a 1:1 configuration:
The objective of the optimization process is to improve LV efficiency and to decrease the left pre-ejection interval (LPEI, defined as the time interval between the onset of QRS and the onset of LV ejection) as much as possible compared with a standard biventricular configuration by moving a second right ventricular lead at different locations.
LPEI is simple to measure, with good inter- and intra-observer reproducibility and its utility has previously been strongly suggested.
Reduction in LPEI results in decreased duration of ventricular systole and is associated with improved LV filling and reduced interventricular delay.
The primary objective of this study is to demonstrate that individually optimized, triple-site biventricular pacing is superior to standard biventricular pacing in reverse ventricular modeling as demonstrated by Echo Left Ventricle End-Systolic Volume (LVESV) at 1 year in patients with non-LBBB morphology without increasing the risk of serious procedure and/or device related adverse events at 30 days.
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30 participants in 2 patient groups
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Data sourced from clinicaltrials.gov
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