This paper describes novel automated methods for the segmentation of complex structures and their subsequent analysis. The methods have been developed as parts of a system to provide decision support in the assessment of patient suitability for endovascular repair of abdominal aortic aneurysms from spiral CT data. Our segmentation technique provides a new method for controlling the deformation: a 3D deformable model using a model of expected structure. This approach introduces knowledge of anatomy into the deformable model through an expected structure model (ESM), mimicking the knowledge of the observer in an interactive system. The expected structure model is used to improve robustness of the deformable model to noise within the image, without globally over-constraining the model. The model also permits the identification of features of interest that can be used for clinical assessment. In order to obtain useful measurements from the segmentations, the geometric structure of the arterial tree is required. Our method automates this procedure using a stochastic growing algorithm based on a particle filter to determine the centre lines and locations of bifurcations of the arterial tree. The results demonstrate how the ESM and stochastic growing algorithm can be used to both identify features and to produce measurements required for patient assessment.
3D automated segmentation and structural analysis of vascular trees using deformable models
2001-01-01
730141 byte
Conference paper
Electronic Resource
English
3D Automated Segmentation and Structural Analysis of Vascular Trees Using Deformable Models
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