Abstract
Aims: Curved M-mode images of global strain (GS) and strain rate (GSR) provide sufficiently detailed spatiotemporal information of deformation mechanics. This study investigated whether a deep convolutional neural network (CNN) could accurately classify these images in patients with atrial fibrillation (AF) who underwent radiofrequency catheter ablation (RFCA) with different outcomes.Methods and Results: We retrospectively evaluated 606 consecutive patients who underwent RFCA for drug-refractory AF. Patients were divided into AF-free (n = 443) and AF-recurrent (n = 163) groups. Transthoracic echocardiography was performed within 24 h after RFCA. Left atrial curved M-mode speckle-tracking images were acquired from randomly selected 163 patients in AF-free group and 163 patients in AF-recurrent group as the dataset for deep CNN modeling. We used the ReLu activation function and repeatedly performed CNN model for 32 times to evaluate the stability of hyperparameters. Logistic regression models with the left atrial dimension, emptying fraction, and peak systolic GS as predictor variables were used for comparisons. Images from the apical 2-chamber (2-C) and 4-chamber (4-C) views had distinct features, leading to different CNN performance between settings; of them, the “4-C GS+4-C GSR” setting provided the highest performance index values. All four predictor variables used for logistic regression modeling were significant; however, none of them, individually or in any combined form, could outperform the optimal CNN model.Conclusion: The novel approach using deep CNNs for learning features of left atrial curved M-mode speckle-tracking images seems to be optimal for classifying outcome status after AF ablation.
Highlights
Speckle-tracking echocardiography (STE) is an imaging modality for analyzing and tracking small segments of the myocardium to provide greater detail for assessing global and regional cardiac motion and function
STE has been applied for assessing left atrial (LA) function, and has been proven to be superior to LA size as a predictor of atrial fibrillation (AF) recurrence after radiofrequency catheter ablation (RFCA) [1,2,3]
The main finding of this study is that a deep convolutional neural network (CNN) based on curved M-mode STE images (4S+4SR) achieved the highest prediction accuracy, sensitivity, and specificity compared with logistic regression models using LAEF, LA dimension (LAD), 2-C global strain (GS), or 4-chamber peak systolic GS (4-C GS), individually or combined, as predictor parameters to assess outcome status after AF ablation
Summary
Speckle-tracking echocardiography (STE) is an imaging modality for analyzing and tracking small segments of the myocardium to provide greater detail for assessing global and regional cardiac motion and function. STE has been applied for assessing left atrial (LA) function, and has been proven to be superior to LA size as a predictor of atrial fibrillation (AF) recurrence after radiofrequency catheter ablation (RFCA) [1,2,3]. LA longitudinal global strain (GS) and GS rate (GSR) are usually determined based on the average of six segmental values per view. In addition to reduced LA deformation, LA mechanical dispersion is pronounced in AF patients, accessed by calculating the standard deviations of segmental GS and GSR values [5]. The curved M-mode color images of GS and GSR provide detailed spatiotemporal information of LA deformation mechanics. Using visual estimation to precisely differentiate these images in challenging
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