Literature DB >> 21755061

Vascular Tree Reconstruction by Minimizing A Physiological Functional Cost.

Yifeng Jiang1, Zhenwu Zhuang, Albert J Sinusas, Xenophon Papademetris.   

Abstract

The reconstruction of complete vascular trees from medical images has many important applications. Although vessel detection has been extensively investigated, little work has been done on how connect the results to reconstruct the full trees. In this paper, we propose a novel theoretical framework for automatic vessel connection, where the automation is achieved by leveraging constraints from the physiological properties of the vascular trees. In particular, a physiological functional cost for the whole vascular tree is derived and an efficient algorithm is developed to minimize it. The method is generic and can be applied to different vessel detection/segmentation results, e.g. the classic rigid detection method as adopted in this paper. We demonstrate the effectiveness of this method on both 2D and 3D data.

Entities:  

Year:  2010        PMID: 21755061      PMCID: PMC3132942          DOI: 10.1109/CVPRW.2010.5543593

Source DB:  PubMed          Journal:  Conf Comput Vis Pattern Recognit Workshops        ISSN: 2160-7508


  18 in total

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2.  On fractal properties of arterial trees.

Authors:  M Zamir
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Review 9.  A review of 3D vessel lumen segmentation techniques: models, features and extraction schemes.

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10.  Computer-optimization of vascular trees.

Authors:  W Schreiner; P F Buxbaum
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  3 in total

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