A. G. Medeiros, Francisco H. S. Silva, E. F. Ohata, S. A. Peixoto, P. P. R. Filho
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引用次数: 5
摘要
本文提出了一种基于非参数自适应活动轮廓法的左心室分割新方法——快速形态测地线活动轮廓法(Fast Morphological Geodesic active contour, FGAC),结合深度学习模型的自适应外部能量。评估方法考虑了志愿者的超声心动图检查结果。超越手工分割,由两位专家医学作为地面真相。将该方法与其他三种基于活动轮廓法的分割方法进行了比较:pSnakes、径向导数蛇(RSD)和径向希尔伯特能量蛇(RSH)。与RSD(99.46%、99.68%)、RSH(99.51%、99.71%)和pSnakes(99.52%、99.72%)相比,FGAC结合自适应外源能的检测精度分别为99.53%、99.72%。此外,该方法获得了相关的Jaccard相似度指数(67.40%,62.02%),准确率为98.64%,98.46%。尽管度量差异很小,但所建议的方法是完全自动的。因此,这些结果表明,所提出的方法的潜力,以协助医疗诊断系统的超声心动学。
An Automatic Left Ventricle Segmentation on Echocardiogram Exams via Morphological Geodesic Active Contour with Adaptive External Energy
This work proposes a new adaptive approach to left ventricle segmentation based on a non-parametric adaptive active contour method called Fast Morphological Geodesic Active Contour (FGAC) combined with adaptive external energy via deep learning model. The evaluation methodology considered echocardiogram exams obtained from volunteers. Beyond the manual segmentations made by two specialists medical as ground truth. The new approach is compared with three other segmentation methods, also based on the active contour method: pSnakes, radial snakes with derivative (RSD), and radial snakes with Hilbert energy (RSH). The FGAC combined with adaptive external energy showed better Precision (99.53%, 99.72%) against RSD (99.46%, 99.68%), RSH (99.51%, 99.71%) and pSnakes (99.52%, 99.72%). Besides, it achieved a relevant Jaccard similarity index (67.40%, 62.02%), and promising accuracy (98.64%, 98.46%). Even though the metrics differences are low, the proposed approach is fully automatic. Therefore, these results suggest the potential of the proposed approach to aid medical diagnosis systems in echocardiology.
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