Layer Separation for Vessel Enhancement in Interventional X-ray Angiograms Using Morphological Filtering and Robust PCA
Published in MICCAI 2015 Workshop on Augmented Environments for Computer-Assisted Interventions, 2015
Hua Ma, Gerardo Dibildox, Jyotirmoy Banerjee, Wiro J. Niessen, Carl Schultz, Evelyn Regar, Theo van Walsum
ABSTRACT:
Automatic vessel extraction from X-ray angiograms (XA) for percutaneous coronary interventions is often hampered by low contrast and presence of background structures, e.g. diaphragm, guiding catheters, stitches. In this paper, we present a novel layer separation technique for vessel enhancement in XA to address this problem. The method uses morphological filtering and Robust PCA to separate interventional XA images into three layers, i.e. a large-scale breathing structure layer, a quasi-static background layer and a layer containing the vessel structures that could potentially improve the quality of vessel extraction from XA. The method is evaluated on several clinical XA sequences. The result shows that the proposed method significantly increases the visibility of vessels in XA and outperforms other background-removal methods.
Recommended citation:
@inproceedings{ma2015layer,
title={Layer separation for vessel enhancement in interventional X-ray angiograms using morphological filtering and robust PCA},
author={Ma, Hua and Dibildox, Gerardo and Banerjee, Jyotirmoy and Niessen, Wiro and Schultz, Carl and Regar, Evelyn and van Walsum, Theo},
booktitle={Workshop on Augmented Environments for Computer-Assisted Interventions},
pages={104--113},
year={2015},
organization={Springer}
}