Physiologic pacing with either BiVP or HisBP preserved or increased LVEF compared with right ventricular pacing among patients with LVEF >35% (mean difference 5.328%; 95% CI 2.86-7.8%; P<0.0001).
Meta-Analysis (n=679)
Does physiologic pacing (BiVP or HisBP) prevent adverse remodeling and improve left ventricular function compared to right ventricular pacing in patients with LVEF >35% requiring permanent pacing?
In patients with LVEF >35% requiring permanent pacing, physiologic pacing (BiVP or HisBP) preserves or improves LVEF and reduces adverse remodeling compared to right ventricular pacing, with particular benefit in those with chronic atrial fibrillation undergoing AV node ablation.
Effect estimate: Mean difference 5.328% (95% CI 2.86%-7.8%)
p-value: p=<0.0001
Background: It is unclear whether physiologic pacing by either cardiac biventricular pacing (BiVP) or His bundle pacing (HisBP) may prevent adverse structural and functional consequences known to occur among some patients who receive right ventricular pacing (RVP). Aim: Our analysis sought to review existing literature to determine if BiVP and/or HisBP might prevent adverse remodeling and be associated with structural, functional, and clinical advantages compared with RVP among patients without severe left ventricular dysfunction (>35%) who required permanent pacing because of heart block. Methods: A literature search was conducted using MEDLINE (through PubMed) and Embase to identify randomized trials and observational studies comparing the effects of BiVP or HisBP versus RVP on measurements of left ventricular dimensions, left ventricular ejection fraction (LVEF), heart failure functional classification, quality of life, 6-minute walk, hospitalizations, and mortality. Data from studies that met the appropriate population, intervention, comparator, and outcomes of interest were abstracted for meta-analysis. Studies that reported pooled outcomes among patients with LVEF both above and below 35% could not be included in the meta-analysis because of strict relationships with industry procedures that preclude retrieval of industry-retained unpublished data on the subset of patients with preserved left ventricular function. Results: Evidence from 8 studies, including a total of 679 patients meeting the prespecified criteria for inclusion, was identified. Results were compared for BiVP versus RVP, HisBP versus RVP, and BiVP+HisBP versus RVP. Among patients who received physiologic pacing with either BiVP or HisBP, the LV end-diastolic and end-systolic volumes were significantly lower (mean duration of follow-up: 1.64 years; –2.77 mL 95% CI –4.37 to –1.1 mL; P =0.001; and –7.09 mL [95% CI –11.27 to –2.91; P =0.0009) and LVEF remained preserved or increased (mean duration of follow-up: 1.57 years; 5.328% [95% CI: 2.86%–7.8%; P 35% but ≤52% were more likely to receive benefit from physiologic pacing. Patients with chronic atrial fibrillation who underwent atrioventricular node ablation and pacemaker implant demonstrated clear improvement in LVEF with BiVP or HisBP versus RVP. Conclusion: Among patients with LVEF >35%, the LVEF remained preserved or increased with either BiVP or HisBP compared with RVP. However, patient-centered clinical outcome improvement appears to be limited primarily to patients who have chronic atrial fibrillation with rapid ventricular response rates and have undergone atrioventricular node ablation.
Slotwiner et al. (Thu,) conducted a meta-analysis in Heart block requiring permanent pacing with LVEF >35% (n=679). Physiologic pacing (biventricular pacing or His bundle pacing) vs. Right ventricular pacing (RVP) was evaluated on Left ventricular ejection fraction (LVEF) (Mean difference 5.328%, 95% CI 2.86%-7.8%, p=<0.0001). Physiologic pacing with either BiVP or HisBP preserved or increased LVEF compared with right ventricular pacing among patients with LVEF >35% (mean difference 5.328%; 95% CI 2.86-7.8%; P<0.0001).