Abstract
Background
Images captured using different modalities usually have significant variations in their intensities, which makes it difficult to reveal their internal structural similarities and achieve accurate registration. Most conventional feature-based image registration techniques are fast and efficient, but they cannot be used directly for the registration of multi-modal images because of these intensity variations.Methods
This paper introduces the theory of manifold learning to transform the original images into mono-modal modalities, which is a feature-based method that is applicable to multi-modal image registration. Subsequently, scale-invariant feature transform is used to detect highly distinctive local descriptors and matches between corresponding images, and a point-based registration is executed.Results
The algorithm was tested with T1- and T2-weighted magnetic resonance (MR) images obtained from BrainWeb. Both qualitative and quantitative evaluations of the method were performed and the results compared with those produced previously. The experiments showed that feature point matching after manifold learning achieved more accurate results than did the similarity measure for multi-modal image registration.Conclusions
This study provides a new manifold-based feature point matching method for multi-modal medical image registration, especially for MR images. The proposed method performs better than do conventional intensity-based techniques in terms of its registration accuracy and is suitable for clinical procedures.References
Articles referenced by this article (27)
elastix: a toolbox for intensity-based medical image registration.
IEEE Trans Med Imaging, (1):196-205 2009
MED: 19923044
Non-rigid registration of multi-modal images using both mutual information and cross-correlation.
Med Image Anal, (1):3-15 2007
MED: 17669679
Brain functional localization: a survey of image registration techniques.
IEEE Trans Med Imaging, (4):427-451 2007
MED: 17427731
A method for registration of 3-D shapes
IEEE Trans Patt Anal Machine Intell, (2) 1992
Hierarchical chamfer matching: a parametric edge matching algorithm
IEEE Trans Patt Anal Machine Intell, (6) 1988
Topology preserving relaxation labeling for nonrigid point matching.
IEEE Trans Pattern Anal Mach Intell, (2):427-432 2011
MED: 20876932
Point set registration: coherent point drift.
IEEE Trans Pattern Anal Mach Intell, (12):2262-2275 2010
MED: 20975122
Distinctive image features from scale-invariant keypoints
Int J Comput Vision, (2) 2004
Show 10 more references (10 of 27)
Citations & impact
Impact metrics
Article citations
Multi-Modal Medical Image Registration with Full or Partial Data: A Manifold Learning Approach.
J Imaging, 5(1):5, 30 Dec 2018
Cited by: 11 articles | PMID: 34470183 | PMCID: PMC8320870
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Review
Funding
Funders who supported this work.
National High Technology Research and Development Program (2)
Grant ID: 8110112
Grant ID: 02Z415
Science and Technology Commission of Shanghai Municipality (2)
Grant ID: 1421400
Grant ID: 10dz2211800
