Midterm 'super-response' to cardiac resynchronization therapy by biventricular pacing with fusion: insights from electro-anatomical mapping

• Published in: Europace (London, England) Vol. 11; no. 12; pp. 1675 - 1682
• Main Authors: Vatasescu, Radu, Berruezo, Antonio, Mont, Lluis, Tamborero, David, Sitges, Marta, Silva, Etel, Tolosana, Jose María, Vidal, Bárbara, Andreu, David, Brugada, Josep
• Format: Journal Article
• Language: English
• Published: England Oxford University Press 01.12.2009
• Subjects: Aged; Body Surface Potential Mapping - methods; Bundle-Branch Block - complications; Bundle-Branch Block - diagnosis; Bundle-Branch Block - prevention & control; Cardiac Pacing, Artificial - methods; Clinical Research; Female; Heart Failure - diagnosis; Heart Failure - etiology; Heart Failure - prevention & control; Humans; Male; Treatment Outcome; RVA pacing; Activation time; Cardiac resynchronization therapy; Fusion
• ISSN: 1099-5129; 1532-2092
• DOI: 10.1093/europace/eup333

Aims Some authors recommend avoiding fusion with left ventricular (LV) intrinsic depolarization during cardiac resynchronization therapy (CRT). If fusion is still present during optimized biventricular (Biv) pacing and its long-term effects on the response to CRT are currently unknown. The aim of the study was to analyse the endocardial LV activation pattern induced by echocardiographically optimized Biv pacing and its influence on LV reverse remodelling. Methods and results Contact electro-anatomical mapping was performed in 15 heart failure (HF) patients with left bundle branch block and echocardiographically optimized CRT (seven ischaemic aetiology, 64 ± 8 years, three women, New York Heart Association class 3 ± 0.4, LV ejection fraction 25 ± 5%). Left ventricular activation maps were performed in sinus rhythm (SR), during DDD right ventricular apical (RVA) and optimized Biv pacing. Fusion with intrinsic rhythm during pacing was considered when LV septal activation was produced at least partially by intrinsic depolarization, when compared with LV activation map during SR. Patients were considered responders to CRT if they had ≥10% reduction in LV end-systolic volume (LVESV) after 6 months of CRT. During SR, the LV breakthrough was mid-septal (n = 12), basal septum (n = 2), and apical (n = 1). During RVA pacing, LV breakthrough shifted apical in all patients. Right ventricular apical/Biv pacing proved fusion with intrinsic depolarization in 8 of 15 patients. The PR interval was shorter in patients with fusion RVA/Biv pacing (164 ± 24 vs. 234 ± 55 ms, P = 0.006). There was a trend for shorter LV activation time (LVat) in patients with fusion during RVA pacing (87 ± 33 vs. 113 ± 21 ms, P = 0.08) as well as during optimized Biv pacing (83 ± 18 vs. 104 ± 24 ms, P = 0.07), although LVat was similar in SR (100 ± 22 vs. 106 ± 20, P = NS). In patients with fusion, 6 months responder rate was significantly higher (100 vs. 28.5%, P < 0.007) as was the degree of LVESV reduction (39 ± 17 vs. 1.0 ± 14%, P < 0.001). Conclusion Biventricular pacing with fusion may substantially increase the structural responder rate probably by shortening LVat.