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Sparse Regularization for Tag Separation in tMRI

We introduce a tag separation method for better cardiac boundary segmentation and tag tracking. Our approach is based on two observations in the cardiac tagged MR images: 1) the tag patterns have a regular texture; 2) the cardiac images without tag patterns are piecewise smooth with sparse gradients. These observations motivate us to use two dictionaries, one based on the Discrete Cosine Transform for representing tag patterns and the other based on the Wavelet Transform for representing the underlying cardiac image without tag patterns. The two dictionaries are built such that they can lead to sparse representations of the tag patterns and of the piece-wise smooth regions without tag patterns. With the two dictionaries, a new tag separation approach is proposed to simultaneously optimize w.r.t. the two sparse representations,where optimization is directed by the Total Variation regularization scheme. While previous methods have focused on tag removal,our approach to acquiring both optimally-decomposed tag-only image and the cardiac image without tags simultaneously can be used for bettertag tracking and cardiac boundary segmentation. We demonstrate the superior performance of the proposed approach through extensive experiments on large sets of cardiac tagged MR images.


.Papers

  • Junzhou Huang, Zhen Qian, Xiaolei Huang, Dimitris Metaxas, Leon Axel, ”Tag Separation in Cardiac Tagged MRI”, In Proc. of the 11th Annual International Conf. on Medical Image Computing and Computer Assisted Intervention, MICCAI’08, LNCS-5242, pp. 289-297, 2008.

 


 

Cardiac tMRI Separation

Figure. Tag separation. (a) the input image I; (b) the separated tag T;(c) the piecewise smooth image S; (d) noise.

 

Cardiac tMRI Segmentation

Figure. Cardiac tMRI segmentation. (a) input image I; (b) band-pass [4]; (c) band-stop [5]; (d) the proposed

 

Cardiac tMRI Tracking

Figure. Tag tracking. (a) and (c)mis-track occurs in the areas indicated by the green circles; (b) and (d) the corresponding results by our approach