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10/05/06 - USPTO Class 324 | 59 views | #20060220645 | Prev - Next | About this Page

Magnetic field mapping during ssfp using phase-incremented or frequency-shifted magnitude images

Title: Magnetic field mapping during ssfp using phase-incremented or frequency-shifted magnitude images

Brief Patent Description - Full Patent Description - Patent Claims

The Patent Description & Claims data below is from USPTO Patent Application 20060220645, Magnetic field mapping during ssfp using phase-incremented or frequency-shifted magnitude images.

1. A method for generating maps of magnetic field during a balanced steady-state free precession (SSFP) sequence comprising: placing an object to be imaged inside an imaging volume of an MRI scanner; applying the balanced SSFP imaging sequence with phase increment or frequency shift to acquire a set of SSFP data in k-space; transforming the k-space data into images by performing Fourier transformation of the acquired SSFP data; generating magnitude images by determining pixel intensities of Fourier-transformed SSFP data, and generating maps of the magnetic field by analyzing the magnitude images.

2. The method of claim 1 wherein applying the balanced SSFP imaging sequence further comprises multiple scans of phase-incremented or frequency-shifted SSFP performed with different values of phase increment or frequency shift in a range of 0 to 2.pi..

3. The method of claim 1 wherein analyzing the magnitude images further comprises analyzing pixel intensities of the magnitude images between scans to identify a value of phase increment or frequency shift for each pixel that yields a minimum intensity.

4. The method of claim 1 wherein generating the magnetic field maps further comprises generating maps of spin precession angle using a three-point quadratic fitting of minimum intensity pixels.

5. The method of claim 1 wherein generating the magnetic field maps further comprises unwrapping maps of precession angles.

6. The method of claim 1 wherein applying the balanced SSFP imaging sequence further comprises acquiring k-space data wherein a center portion of the k-space is more frequently acquired than acquisition of another portion of the k-space.

7. The method of claim 6 wherein the another portion of the k-space is full k-space.

8. The method of claim 6 wherein the acquired k-space data is sorted to data for field mapping and to data for imaging.

9. The method of claim 8 wherein the data for field mapping occupy only the center portion of the k-space and have more steps of phase increment or frequency shift, and the data for imaging occupy a full k-space and have fewer steps of phase increment or frequency shift.

10. The method of claim 1 further comprising applying the maps of magnetic field to adjust the MRI scanner to compensate for field anomalies indicated in the field maps.

11. The method of claim 1 further comprising applying the maps of the magnetic field to generate water-fat separated SSFP images.

12. The method of claim 11 wherein the phase-incremented or frequency-shifted SSFP data is acquired with: TR=2TE=(2n+1)/(2.DELTA.f.sub.water-fat), n=0,1,2, . . . where TR and TE are time of repetition and time of echo, respectively, of the SSFP sequence, and .DELTA.f.sub.water-fat is a difference in resonance frequency in Hertz between the water and fat nuclear spins.

13. The method of claim 11 further comprising: combining the acquired set of SSFP signals to produce isolated echo signals of S.sub.0 and S.sub.-1; transforming S.sub.0 and S.sub.-1 from k-space to image space to yield isolated images I.sub.0 and I.sub.-1, respectively; phase correcting the isolated echo images, and combining the phase-corrected isolated images to generate water or fat SSFP images.

14. A magnetic resonance imaging (MRI) system for generating maps of magnetic field during a balanced steady-state free precession (SSFP) sequence, said system comprising: a programmed controller coupled to radio frequency coils and magnetic gradient coils via associated circuits, wherein the controller applies a balanced SSFP imaging sequence with phase increment or frequency shift to acquire a set of SSFP data in k-space, and a data processor arithmetically processing the collected SSFP data to produce the field maps, wherein said processor converts the data in k-space to images by performing a Fourier transformation on the acquired SSFP data, and generates the field maps by determining pixel intensities of Fourier transformed SSFP data.

15. The system of claim 14 wherein the data processor analyzes the magnitude by analyzing pixel intensities to identify a value of phase increment or frequency shift for each pixel that yields a minimum intensity.

16. The system of claim 14 wherein maps of spin precession angle are generated using a three-point quadratic fitting of minimum intensity pixels.

17. The method of claim 16 wherein the data processor unwraps the maps of precession angles.

18. The system of claim 14 wherein applying the balanced SSFP imaging sequence further comprise acquiring k-space data wherein a center portion of the k-space is more frequently acquired than acquisition of full k-space.

19. The system of claim 18 wherein the processor sorts the acquired k-space data to data for field mapping and data for imaging.

20. The system of claim 18 wherein the data for field mapping occupy only the center portion of the k-space and have more steps of phase increment or frequency shift, and the data for imaging occupy a full k-space and have fewer steps of phase increment or frequency shift.

21. The system of claim 14 wherein the processor applies the maps of the magnetic field to adjust the MRI system to compensate for field anomalies indicated in the field maps.

22. The system of claim 14 wherein the processor applies the maps of the magnetic field to generate water-fat separated SSFP images.

23. The system of claim 22 wherein the phase-incremented or frequency-shifted SSFP data is acquired with: TR=2TE=(2n+1)/(2.DELTA.f.sub.water-fat), n=0,1,2 . . . where TR and TE are time of repetition and time of echo, respectively, of the SSFP sequence, and .DELTA.f.sub.water-fat is the difference in resonance frequency in Hertz between the water and fat nuclear spins.

24. The system of claim 22 wherein the processor further: combines the acquired phase-incremented or frequency-shifted SSFP signals to produce isolated echo signals of S.sub.0 and S.sub.-1; transforms S.sub.0 and S.sub.-1 from k-space to image space to yield isolated images I.sub.0 and I.sub.-1, respectively; phase correct the isolated echo images, and combine the phase-corrected isolated images to construct water and fat SSFP images.

Brief Patent Description - Full Patent Description - Patent Claims

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Rf transmission method, mri apparatus, and auxiliary coil
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Magnetic resonance imaging device
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Electricity: measuring and testing

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