Author/Authors :
Jang, Yeonggul Yonsei University - Seoul, Republic of Korea , Jung, Ho Yub Hankuk University of Foreign Studies - Yongin, Republic of Korea , Hong, Youngtaek Yonsei University - Seoul, Republic of Korea , Cho, Iksung Yonsei University College of Medicine - Seoul, Republic of Korea , Shim, Hackjoon Yonsei University College of Medicine - Seoul, Republic of Korea , Chang, Hyuk-Jae Yonsei University College of Medicine - Seoul, Republic of Korea
Abstract :
This paper presents a method for the automatic 3D segmentation of the ascending aorta from coronary computed tomography
angiography (CCTA). The segmentation is performed in three steps. First, the initial seed points are selected by minimizing a newly
proposed energy function across the Hough circles. Second, the ascending aorta is segmented by geodesic distance transformation.
Third, the seed points are effectively transferred through the next axial slice by a novel transfer function. Experiments are performed
using a database composed of 10 patients’ CCTA images. For the experiment, the ground truths are annotated manually on the axial
image slices by a medical expert. A comparative evaluation with state-of-the-art commercial aorta segmentation algorithms shows
that our approach is computationally more efficient and accurate under the DSC (Dice Similarity Coefficient) measurements.
