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A General Approach to Model Biomedical Data from 3D Unorganised Point Clouds with Medial Scaffolds

Frederic Fol Leymarie; Celina Z. Imielinska; Ming-Ching Chang; Benjamin B. Kimia

Title:
A General Approach to Model Biomedical Data from 3D Unorganised Point Clouds with Medial Scaffolds
Author(s):
Leymarie, Frederic Fol; Imielinska, Celina Z.; Chang, Ming-Ching; Kimia, Benjamin B.
Date:
Type:
Articles
Department:
Radiation Oncology
Permanent URL:
Book/Journal Title:
EG VCBM 2010 : Eurographics Workshop on Visual Computing for Biology and Medicine : Leipzig, Germany, July 1-2, 2010
Publisher:
Eurographics Association
Abstract:
We present the latest developments in modeling 3D biomedical data via the Medial Scaffold (MS), a 3D acyclic oriented graph representation of the Medial Axis (MA) [LK07, SP08]. The MS (and associated 3DMA) can be computed as the result of the singularities of a geometric wave propagation simulation. We consider here some of the potential applications of this shape model in the realm of biomedical imaging. We can reconstruct complex object surfaces and make explicit the coarse-scale structures, which are ready-to-use in a number of practical applications, including: morphological measurement for cortex or bone thickness, centerline extraction (curve skeleton) for tracheotomy or colonoscopy, surface partitioning for cortical or anatomical surface classification, as well as registration and matching of shapes of tumors or carpal bones. The MS permits to automatically and efficiently map an unorganised point cloud, i.e., simple 3D coordinates of point samples, to a coherent surface set and associated approximate MA. The derived MS is used to further recover significant medium and large scale features, such as surface ridges and main axial symmetries. The radius field of the MS provides an intuitive definition for morphological measurements, while the graph structure made explicit by the MS is useful for shape registration and matching applications.
Subject(s):
Medical imaging and radiology, Computer science
Item views:
112
Metadata:
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