Integrating temporal information with a non-rigid method of motion correction for functional magnetic resonance images

Existing approaches to the problem of subject motion artefacts in FMRI data have applied rigid-body registration techniques to what is a non-rigid problem. We propose a model, which can account for the non-linear characteristics of movement effects, known to result from the acquisition methods used to form these images. The model also facilitates the proper application of temporal corrections, which are needed to compensate for acquisition delays. Results of an implementation based on this model reveal that it is possible to correct these effects, leading to accurate realignment and timing correction.

[1]  C. R. Meyer,et al.  Improved Motion Correction by Joint Mapping of Slices to an Anantomical Volume Demonstrated by Simulated fMRI Time Series , 2005 .

[2]  Lucian Muresan,et al.  Position-history and spin-history artifacts in fMRI time series , 2002, SPIE Medical Imaging.

[3]  J. Mazziotta,et al.  Rapid Automated Algorithm for Aligning and Reslicing PET Images , 1992, Journal of computer assisted tomography.

[4]  C. Pelizzari,et al.  Accurate Three‐Dimensional Registration of CT, PET, and/or MR Images of the Brain , 1989, Journal of computer assisted tomography.

[5]  Karl J. Friston,et al.  Spatial registration and normalization of images , 1995 .

[6]  Stephen M. Smith,et al.  Improved Optimization for the Robust and Accurate Linear Registration and Motion Correction of Brain Images , 2002, NeuroImage.

[7]  C R Meyer,et al.  Motion correction in fMRI via registration of individual slices into an anatomical volume , 1999, Magnetic resonance in medicine.

[8]  R W Cox,et al.  AFNI: software for analysis and visualization of functional magnetic resonance neuroimages. , 1996, Computers and biomedical research, an international journal.

[9]  M. Carter Computer graphics: Principles and practice , 1997 .

[10]  Christian Smith,et al.  Robot manipulators , 2009, IEEE Robotics & Automation Magazine.

[11]  D. Weinberger,et al.  Analysis of interpolation effects in the reslicing of functional MR images. , 1997, Journal of computer assisted tomography.

[12]  Michael Brady,et al.  Improved Optimization for the Robust and Accurate Linear Registration and Motion Correction of Brain Images , 2002, NeuroImage.

[13]  Robert Rohling,et al.  Three-dimensional spatial compounding of ultrasound images , 1997, Medical Image Anal..

[14]  Mark Jenkinson,et al.  Global optimisation for robust affine registration , 2000, NeuroImage.

[15]  William H. Press,et al.  Numerical recipes in C , 2002 .