Shape-based enhancement of vascular structures in digital subtraction angiography images using local covariance information

Klaus D. Toennies; Luca Remonda; Regina Pohle

doi:10.1117/12.387724

6 June 2000 Shape-based enhancement of vascular structures in digital subtraction angiography images using local covariance information

Klaus D. Toennies, Luca Remonda, Regina Pohle

Author Affiliations +

Proceedings Volume 3979, Medical Imaging 2000: Image Processing; (2000) https://doi.org/10.1117/12.387724
Event: Medical Imaging 2000, 2000, San Diego, CA, United States

Abstract

We present a new method of enhancing cerebral vessels in subtraction angiography that defines shape attributes in terms of pixel features. Vessel knowledge comprises information on the imaging process, e.g., distribution of contrast media, noise characteristics, and morphological information on the vessels. The latter is computed as a fuzzy measure because pixels have not yet been classified into vessel and background pixels. We model our image as result of a process of projecting discrete contrast media voxels on the image plane. The projection is assumed to be distorted by noise. The shape feature is derived from the Karhunen-Loeve transformation (KLT) that is computed at each pixel from the covariance of the contrast distribution in a given neighborhood. Vessel likelihood is computed from local elongatedness. The latter is derived from the variances along the two principal axes and from the first central moment of the contrast distribution. The directional information from the KLT is used for anisotropic diffusion for noise reduction. Results of the enhancement step on angiographic data showed a significant improvement of the contrast while not blurring the image. Closely neighboring vessels could be differentiated if they were one pixel apart and if the SNR were better than 2:1.

Citation Download Citation

Klaus D. Toennies, Luca Remonda, and Regina Pohle "Shape-based enhancement of vascular structures in digital subtraction angiography images using local covariance information", Proc. SPIE 3979, Medical Imaging 2000: Image Processing, (6 June 2000); https://doi.org/10.1117/12.387724

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