Activation imaging with 3D-STE using 25% of maximal area change ratio strongly correlated with electrical voltage mapping for intraventricular activation time (R=0.80, P<0.001).
Observational (n=7)
Does activation imaging with 3D-STE accurately reflect electrical activation compared to 3D electrical voltage mapping in patients undergoing electrophysiological evaluation?
Activation imaging with 3D-STE using a 25% maximal area change ratio threshold provides a feasible, noninvasive method to assess left ventricular mechanical dyssynchrony that correlates well with invasive electrical activation mapping.
Effect estimate: R=0.80
p-value: p=<0.001
BACKGROUND: Activation imaging with 3-dimensional speckle-tracking echocardiography (3D-STE) aims to visualize the time required for the onset of regional contraction from QRS onset. We hypothesized that the optimal setting of activation imaging was associated with electrical activation. This study was designed to determine an optimal setting of activation imaging with 3D-STE in comparison with that of a voltage mapping system and to assess the feasibility of this imaging method. METHODS AND RESULTS: We enrolled 7 patients who underwent electrical voltage mapping. Regional deformation was measured by area change ratio (ACR) with 3D-STE. Activation imaging data were obtained at 10%, 25%, 50%, and 100% of maximal ACR values as the threshold for onset of regional contraction. Duration of LV electrical intraventricular activation time (IVAT(electrical)) by voltage mapping and mechanical IVAT (IVAT(mechanical)) by activation imaging was defined as the time difference between the first and latest endocardial activation sites. We obtained 21 data sets under various conduction patterns and pacing configurations. The strongest correlation between IVAT(mechanical) and IVAT(electrical) was observed at 25% of maximal ACR values (IVAT(electrical)=0.47 * IVAT(mechanical)+20, R=0.80, P<0.001). Concordance of the first and latest activated segments between activation imaging and voltage mapping was 90.5% at this setting (19 studies). CONCLUSIONS: Activation imaging with 3D-STE may be a feasible noninvasive method of dyssynchrony imaging based on electromechanical coupling.
Seo et al. (Tue,) conducted a observational in Patients undergoing electrical voltage mapping (n=7). Activation imaging with 3-dimensional speckle-tracking echocardiography (3D-STE) vs. Voltage mapping system was evaluated on Correlation between mechanical and electrical intraventricular activation time (IVAT) (R=0.80, p=<0.001). Activation imaging with 3D-STE using 25% of maximal area change ratio strongly correlated with electrical voltage mapping for intraventricular activation time (R=0.80, P<0.001).