Direction-Dependent Level Set Segmentation of Cerebrovascular Structures

Nils Daniel Forkert, Dennis Säring, Till Illies, Jens Fiehler, Jan Ehrhardt, Heinz Handels, Alexander Schmidt-Richberg

Abstract

Exact cerebrovascular segmentations based on high resolution 3D anatomical datasets are required for many clinical applications. A general problem of most vessel segmentation methods is the insufficient delineation of small vessels, which are often represented by rather low intensities and high surface curvatures. This paper describes an improved direction-dependent level set approach for the cerebrovascular segmentation. The proposed method utilizes the direction information of the eigenvectors computed by vesselness filters for adjusting the weights of the internal energy depending on the location. The basic idea of this is to weight the internal energy lower in case the gradient of the level set is comparable to the direction of the eigenvector extracted by the vesselness filter. A quantitative evaluation of the proposed method based on three clinical Time-of-Flight MRA datasets with available manual segmentations using the Tanimoto coefficient showed that a mean improvement compared to the initial segmentation of 0.081 is achieved, while the corresponding level set segmentation without integration of direction information does not lead to satisfying results. In summary, the proposed method enables an improved delineation of small vessels, especially of those represented by low intensities and high surface curvatures.
OriginalspracheEnglisch
TitelMedical Imaging 2011: Image Processing
Redakteure/-innenDavid R. Haynor, Benoit M. Dawant
Seitenumfang8
Band7962
Herausgeber (Verlag)SPIE
Erscheinungsdatum14.03.2011
Seiten79623S1 - 79623S8
ISBN (Print)Medical Imaging 2011: Image Processing
DOIs
PublikationsstatusVeröffentlicht - 14.03.2011
VeranstaltungImage Processing, SPIE Medical Imaging 2011
- Lake Buena Vista (Orlando), USA / Vereinigte Staaten
Dauer: 12.02.201117.02.2011

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