Abstract 12757: The Combination of Dyssynchrony and Global Longitudinal Strain by 3D Speckle Tracking After ST-Elevation Myocardial Infarction is Useful for Prediction of Final Infarct Size and Left Ventricular Remodeling

Background: Left ventricular (LV) global strain estimated immediately after ST elevation AMI (STEMI) was reported as a predictor of LV remodeling. Furthermore, LV dyssynchrony estimated by 2D strain is also a prognosticator. However, strain analysis ideally should be assessed by 3D speckle tracking, in order to avoid through plane motion. We explored the usefulness of these two variable assessed by 3D speckle tracking in patients with a first STEMI. Methods: Consecutive 190 patients (131 men, age 65 years, peak CPK=3169 IU/l) presenting with a first STEMI who underwent primary PCI within 12 hours of onset were enrolled. Within 24 h of PCI, echocardiography was performed by iE33(Philips). 3D speckle tracking was analyzed by 4D LV-Analysis (TOM-TEC, Germany). Global longitudinal strain was calculated (3D-GLS) and the standard deviation (SD) of time to regional peak 3D longitudinal strain (3D-Long-SD) for all 16 segments was assessed as the parameter of dyssynchrony. Final infarct size was defined using Tc99m-sestamibi as the total area of Results: LV remodeling was observed in 52 patients at 12 months. Both 3D-GLS and 3D-Long-SD had significant relationships with infarct size (r2=0.236, 0.169, p Conclusions: In patients with a first STEMI, GLS and LV dyssynchrony assessed by 3D speckle tracking echocardiography immediately after PCI can predict final infarct size and LV remodeling. The combination of these parameters was especially useful to predict LV remodeling.