An automatic algorithm using active shape models to locate and track the left ventricular region in raw echocardiogram videos demonstrated utility for predicting left ventricular dysfunction.
Does an automatic algorithm using active shape models predict left ventricular dysfunction in echocardiogram videos?
An automated algorithm using active shape models can track the left ventricle in echocardiogram videos to predict left ventricular dysfunction.
Echocardiography is often used to diagnose cardiac diseases related to regional and valvular motion abnormalities. Due to the low resolution of the imaging modality, the choice of viewpoint and mode, and the experience of the sonographers, there is a large variance in the estimation of important diagnostic measurements such as ejection fraction. In this paper, we develop an automatic algorithm to estimate diagnostic measurements from raw echocardiogram video sequences. Specifically, we locate and track the left ventricular region over a heart cycle using active shape models. We also present efficient ventricular localization in video sequences by automatically detecting and propagating echocardiographer annotations. Results on a large database of cardiac echo videos demonstrate the use of our method for the prediction of left ventricular dysfunction.
Beymer et al. (Mon,) conducted a other in Left ventricular dysfunction. Automatic algorithm using active shape models was evaluated on Prediction of left ventricular dysfunction. An automatic algorithm using active shape models to locate and track the left ventricular region in raw echocardiogram videos demonstrated utility for predicting left ventricular dysfunction.