Protection of Cardiac Function With Left Bundle Branch Pacing in Patients With Atrioventricular Block

Overview

OptimPacing study has been designed as a prospective, multi-center, randomized, controlled trial. A total of 11 medical centers across China will enroll 683 patients over an estimated recruitment period of 2 years. An LBBP group will be compared with a group of conventional RVP in the follow-up of at least 3 years. The study aimed to demonstrate (1) the superiority of LBBP in preserving LV systolic function over RVP and (2) the feasibility and long-term safety of LBBP in patients with AV block.

Introduction Right ventricular pacing (RVP) has been the standard-of-care therapy for patients with bradycardia for sixty years. However, the selection of optimal pacing site is still controversial. Right ventricular septal or outflow tract pacing has not resulted in improved outcomes. RVP is considered to result in electrical and mechanical dyssynchrony and an increased risk of pacing-induced cardiomyopathy (PICM), heart failure and mortality. Biopace (Biventricular Pacing for Atrioventricular Block to Prevent Cardiac Desynchronization) study is a randomized controlled trial with a large population evaluating biventricular pacing versus RVP in patients with atrioventricular (AV) block. But biventricular pacing was not shown superiority in clinical outcomes compared with RVP. As biventricular pacing is delivered at two non-physiological sites, it actually creates ventricular dyssynchrony in patients with narrow QRS durations. Thus, seeking for the optimal pacing site has been the ultimate goal of doctors who specialize in cardiac pacing. His-bundle pacing (HBP) is thought to be the most physiological pacing modality, which was initial applied by Deshmukh et al in 2000. HBP activates native His-Purkinje system and produces favorable electrical and mechanical synchrony. Clinical observations have shown HBP could reduce the incidence of PICM and improve combined clinical outcomes. However, HBP is not widely applied because of challenging operating techniques, unstable long-term pacing parameters and risk of loss of ventricular capture in a significant number of patients. Left bundle branch pacing (LBBP) was first introduced by Huang et al in 2017. Since then, LBBP has been carried out boomingly in China. Similar with HBP, LBBP could activate left bundle branch (LBB) fibers and provide narrower paced QRS duration and better left ventricular (LV) mechanical synchrony than RVP. Animal studies also confirmed the physiological characteristics and anatomical lead locations of LBBP. Several clinical studies showed that LBBP could produce significantly narrower paced QRS duration and better echocardiographic response than biventricular pacing in patients with heart failure and LBB block. Furthermore, the implantation procedure appears easier and capture threshold is lower when compared with HBP. LBBP has appeared to be a promising approach in the clinical practice. However, no randomized controlled studies have been reported to compare the efficacy of LBBP and other pacing modalities. Objectives The study aimed to demonstrate (1) the superiority of LBBP in preserving LV systolic function over RVP and (2) the feasibility and long-term safety of LBBP in patients with AV block. Methods Stratified randomization A balanced randomization is applied according to the following stratifying criteria: 1. AF with slow ventricular rate: present or absent; 2. LVEF: ≤ 50% or \> 50%. Lead implantation of LBBP The lead implantation of LBBP has been well described previously. The implantation was performed using the Select Secure (3830) pacing lead delivered through a fixed-curve sheath. The 3830 lead was introduced transvenously into the right ventricle and screwed into the interventricular septum (IVS) until LV septum was reached, without protruding into the LV cavity. Venous access was obtained via the left axillary vein or subclavian vein. The 3830 lead was inserted through the C315 HIS sheath. An intracardiac electrogram was recorded from the lead tip using the electrophysiological recording system. His-bundle electrogram was identified at the right anterior oblique 25° position and fluoroscopic image of the lead position was recorded as a reference. The sheath and lead tip were first advanced to the anterior lower site of the His-bundle position, and subsequently rotated in a counterclockwise fashion to place the lead tip in a perpendicular orientation to the IVS. A paced morphology of QS complex with a north in the nadir ("W"-shaped morphology) in surface lead V1 was usually observed at this location. As the lead tip was gradually screwed into the IVS, a rightward shift of the second notch in the "W"-shaped pacing morphology can be observed. The lead tip was considered to be in the final position once a paced morphology of right bundle branch delay (RBBD) in surface lead V1 was achieved. Moreover, a discrete potential before the QRS complex could be often recorded from the lead tip, and we defined this potential as the LBB potential. Left ventricular activation time (LVAT) was measured from the intracardiac pacing spike to the R-wave peak of QRS complex in lead V5 or V6. The penetration depth in the IVS was finally assessed by injecting a small amount of contrast medium through the sheath in left anterior oblique 45°. Echocardiography was routinely performed to evaluate the lead depth in the IVS before discharge. Device programming The devices are routinely programmed with a lower rate limit of 60 ppm. For DDD devices, the paced and sensed AV intervals are set as 150 and 120 ms, respectively. Study organization Echocardiographic core lab Echocardiographic examinations are performed at each study center before pacemaker implantation and at follow-up. All images are stored on DVD disks and sent to the core lab (Zhongshan Hospital, Fudan University) for central analysis. Study Steering Committee The study steering committee is composed of three experts who are not the investigators of this study. The committee is responsible for the academic issues including the judgment of LBBP or LVSP. Independent Data Monitoring Committee (iDMC) The iDMC is composed of three experts including at least one statistical expert. The committee is responsible for the data examination including mid-term evaluation during the study and also the patient privacy protection. Safety Review Committee The safety review committee is composed of three experts who are not the investigators of this study. In case of severe adverse events, including all-cause death, acute cardiovascular or cerebrovascular events and other lethal or disabling diseases, the committee will be responsible for the investigation of the events. The physicians should report the events to the principal investigator of each center and the committee within 2 hours. The committee should report the events to the hospital ethics committee in 24 hours. The committee may recommend the early termination of the study if an excessive rate of adverse events is suspected. Statistical analysis Intention-to-treat principle Data analyses are performed according to the intention-to-treat principle. If LBBP or LVSP fails, RVP will be performed and the patient will not be crossed over to the other group. If LBBP fails but LVSP succeeds, the sub-group analysis for these patients with LVSP will be done. Sample size According to previous publications of HBP and RVP, we supposed that the rate of 5-year composite endpoints in RVP group was 25% and the rate in LBBP group was 15%. With a recruitment period of 2 years and follow-up time of at least 3 years, at least 100 events are required to achieve a power of 80%. With alpha as 0.05, rate of lost-of-follow-up rate as 10%, the final sample size was estimated as 683 by using PASS Version 15. Endpoint analysis Kaplan-Meier analysis was used to compare the rate of endpoints between the two groups over time. Cox proportional risk model will be applied to calculate the hazard ratio. A p-value less than 0.05 was considered statistically significant. Mid-term analysis Mid-term analysis is performed by iDMC when the rate of events reaches 50% (at least 50 events of primary endpoint). If LBBP group exhibits statistically significant superiority over RVP group with the significant level of 0.003, the study could be effectively early terminated. Otherwise, the sample size will be re-evaluated. The iDMC may determine if the study will continue according to the re-evaluation of the sample size. Eventually, the data prior to and after the mid-term analysis are put together for final analysis with the significant level of 0.047. Statistical software All statistical analyses were performed using SAS Version 9.4 or R Software Version 3.6. Study timeframe The study will start in October 2020 and the complete enrollment will be expected by the end of 2022. At least 11 medical centers across China will participate in the study. With a period of at least 3-year follow-up, the study is expected to finish at the end of 2025. The recruitment might be slower if the mid-term analysis does not reach the statistical significance and a larger population is required.