Left atrial appendage closure with zero fluoroscopic exposure via intracardiac echocardiographic guidance

Abstract

Abstract Background Percutaneous left atrial appendage closure (LAAC) is currently guided by fluoroscopy and transesophageal echocardiography (TEE). Objective We report an LAAC technique using intracardiac echocardiography (ICE) and electroanatomic mapping system (EAMS) under local anesthesia without fluoroscopy exposure. Methods Seven non-valvular atrial fibrillation (NVAF) patients with high risk of stroke and bleeding (male 5/7, aged 71.7±8.8 years, mean CHA2DS2-VASc score 5.1±2.1; mean HAS-BLED score 3.0±1.2) were enrolled. ICE probe was advanced into left atrium (LA) navigated by the EAMS. LAA sizing and LAmbreTM device implantation were guided by ICE following the orthogonal tri-axial algorithm (Axis-X: from left pulmonary veins [LPVs] to LAA; Axis-Y: from right PV ostium to LAA; Axis-Z: from lower LA to LAA). Results There were two cauliflower-like, two chicken-wing-like and three cactus-like LAAs. The mean diameters of ostia and landing zone were 21.4±3.9mm and 20.4±4.2mm, respectively. LAmbre devices with a mean umbrella diameter of 23.7±4.2mm and cover disc diameter of 29.4±3.6mm were successfully implanted and acute complete LAA sealing without peri-device leak (PDL) were achieved in all cases. The mean procedural duration was 73.0±21.4min. No fluoroscopy exposure nor contrast consumption were recorded. No procedure-related complications were documented. The PDL at 45-day follow-up was 1.7±0.8mm. No stroke or thromboembolic events were documented. Conclusions The fluoroscopic exposure could be minimized, even to zero, in the ICE-guided LAAC procedures feasibly and safely using LAmbre devices. The orthogonal tri-axial assessment is considered efficacious and safe for the procedures. Orthogonal tri-axial algorithm Funding Acknowledgement Type of funding source: None