Left atrial appendage eccentricity and irregularity are associated with residual leaks after percutaneous closure

Adil Rajwani, Masoumeh G Shirazi, Patrick J S Disney, Dennis T L Wong, Karen Teo, Sinny Delacroix, Sirish Ramesh Chokka, Glenn D Young, Stephen Grant Worthley

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14 Citations (Scopus)

Abstract

Objectives Predictors of residual leak following percutaneous LAA closure were evaluated. Background Left atrial appendage (LAA) closure aims to exclude this structure from the circulation, typically using a circular occluder. A noncircular orifice is frequently encountered however, and fibrous remodeling of the LAA in atrial fibrillation may restrict orifice deformation. Noncircularity may thus be implicated in the occurrence of residual leak despite an appropriately oversized device. Methods Pre-procedural multislice computerized tomography was used to quantify LAA orifice eccentricity and irregularity. Univariate predictors of residual leak were identified with respect to the orifice, device, and relevant clinical variables, with the nature of any correlations then further evaluated. Results Eccentricity and irregularity indexes of the orifice in 31 individuals were correlated with residual leak even where the device was appropriately oversized. An eccentricity index of 0.15 predicted a residual leak with 85 sensitivity and 59 specificity. An irregularity index of 0.05 predicted a significant residual leak >3 mm with 100 sensitivity and 86 specificity. Orifice size, device size, degree of device oversize, left atrial volume, and pulmonary artery pressure were not predictors of residual leak. Conclusions Eccentricity and irregularity of the LAA orifice are implicated in residual leak after percutaneous closure even where there is appropriate device over-size. Irregularity index in particular is a novel predictor of residual leak, supporting a closer consideration of orifice morphology before closure. ? 2015 American College of Cardiology Foundation.
Original languageEnglish
Pages (from-to)478 - 485
Number of pages8
JournalJACC: Clinical Electrophysiology
Volume1
Issue number6
DOIs
Publication statusPublished - 2015

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