IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0466635
(2002-01-18)
|
우선권정보 |
JP-0012478 (2001-01-19) |
국제출원번호 |
PCT//JP02/00343
(2003-10-20)
|
§371/§102 date |
20031020
(20031020)
|
국제공개번호 |
WO02//05676
(2002-07-25)
|
발명자
/ 주소 |
- Gonzalez Ballester, Miguel Angel
- Machida, Yoshio
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
14 인용 특허 :
2 |
초록
▼
A sensitivity distribution is estimated for a multicoil used in multicoil fast imaging. Initial sensitivity maps M1 to M3 are produced respectively from images C1 to C3 acquired from the plurality of RF coils in the multicoil. By fitting TPS (thin-plate splines) to the initial sensitivity maps M1 to
A sensitivity distribution is estimated for a multicoil used in multicoil fast imaging. Initial sensitivity maps M1 to M3 are produced respectively from images C1 to C3 acquired from the plurality of RF coils in the multicoil. By fitting TPS (thin-plate splines) to the initial sensitivity maps M1 to M3 used as target data, sensitivity maps M1′ to M3′ for unfolding are estimated. In fitting the TPS, functions are activated, such as automatic arrangement of control points, addition of target points to the outside of an image, use of a known model, and fitting to at least either absolute value components of MR data or phase components of the MR data. Thus, even if only coarse echo data is acquired from the region to be imaged, a sensitivity map of each element coil of the multicoil is estimated with high precision.
대표청구항
▼
1. A coil sensitivity distribution estimating method for estimating a sensitivity distribution of a multicoil composed of a plurality of RF coils, the multicoil being used for parallel MR imaging, said method comprising:producing an initial sensitivity map of the multicoil; and obtaining an unfoldin
1. A coil sensitivity distribution estimating method for estimating a sensitivity distribution of a multicoil composed of a plurality of RF coils, the multicoil being used for parallel MR imaging, said method comprising:producing an initial sensitivity map of the multicoil; and obtaining an unfolding sensitivity map by fitting GCS (Global Coverage Splines) to the initial sensitivity map by performing processing that includes automatic positioning of a basic function of the GCS using a grid in which grid points thereof become control points. 2. A coil sensitivity distribution estimating apparatus configured to estimate a sensitivity distribution of a multicoil composed of a plurality of RF coils, the multicoil being used for parallel MR imaging, said apparatus comprising:production means for producing an initial sensitivity map of the multicoil; and fitting means for obtaining an unfolding sensitivity map by fitting GCS (Global Coverage Splines) to the initial sensitivity map, wherein the fitting means has a means for performing automatic positioning of a basis function of the GCS by using a grid in which grid points thereof become control points. 3. A coil sensitivity distribution estimating apparatus as in claim 2, wherein the production means includes means for producing the initial sensitivity map by synthesizing pixel values of images acquired respectively by the plurality of RF coils.4. A coil sensitivity distribution estimating apparatus as in claim 2, wherein the production means includes means for using, as the initial sensitivity map, an image acquired using a whole-body coil.5. A coil sensitivity distribution estimating apparatus as in claim 2, wherein the fitting means includes means for additionally performing processing composed of at least one of (i) external addition of a target point to an image in performing the unfolding processing, and (ii) embedding known information about the sensitivity map for the unfolding processing.6. A coil sensitivity distribution estimating apparatus as in claim 2, further comprising:scanning means for scanning an object that is examined in order to acquire echo data via the multiple coil, wherein the production means includes means for producing the initial sensitivity map of the multicoil based on the echo data acquired by the scanning means. 7. A coil sensitivity distribution estimating apparatus as in claim 2, wherein the production means and the fitting means are configured to apply both the production of the initial sensitivity map and the obtaining of the sensitivity map to at least one of absolute value components of MR data and phase components of the MR data.8. A coil sensitivity distribution estimating apparatus as in claim 2, wherein the production means includes means for producing a two-dimensional initial sensitivity map of each RF coil based on the echo data andthe fitting means includes means for obtaining a two-dimensional unfolding sensitivity map by fitting the GCS to the two-dimensional initial sensitivity map. 9. A coil sensitivity distribution estimating apparatus as in claim 2, wherein the production means includes means for producing a three-dimensional initial sensitivity map of each RF coil based on the echo data andthe fitting means is formed into means for obtaining a three-dimensional unfolding sensitivity map by fitting the GCS to the two-dimensional initial sensitivity map. 10. A magnetic resonance imaging apparatus configured to obtain an MR image of an object that is examined using a multiple coil composed of a plurality of RF coils, said apparatus comprising:first production means for producing first sensitivity maps of the RF coils, respectively, on the basis of echo data received from the plurality of RF coils of the multicoil and echo data acquired from a pre-scan; second production means for producing second sensitivity maps by fitting GCS (Global Coverage Splines) to the first sensitive maps, respectively; reconstruction means for reconstructing echo data scanned by parallel MR imaging and received via the plurality of RF coils of the multicoil; and imaging obtaining means for obtaining the MR image by processing an image reconstructed by the reconstruction means, the processing including unfolding processing carried out using the second sensitivity maps, wherein the first production means comprises: scanning means for obtaining volume data made up of three-dimensional echo data by performing the pre-scan, and calculation means for calculating, as the first sensitivity map, a first three-dimensional sensitivity map of each RF coil on the basis of the volume data, the second production means including a means for fitting the GCS to each three-dimensional first sensitivity map in order to obtain, as the second sensitivity map, a second three-dimensional sensitivity map, and the image obtaining means includes cutting means for cutting out a sectional sensitivity map from the second three-dimensional sensitivity map depending on the image reconstructed by the reconstruction means and unfolding means for performing the unfolding processing with the use of the sectional two-dimensional map cut out by the cutting means. 11. A magnetic resonance imaging apparatus as in claim 10, wherein the first production means includes means for producing the first sensitivity map by synthesizing pixel values of images acquired respectively by the plurality of RF coils.12. The magnetic resonance imaging apparatus as in claim 10, wherein the second production means also includes means for performing processing composed of at least one of external addition of a target point to an image in performing the unfolding processing, and embedding known information about the sensitivity map for the unfolding processing.13. A magnetic resonance imaging apparatus configured to obtain an MR image of an object that is examined using a multicoil composed of a plurality of RF coils, the apparatus comprising:first production means for producing first sensitivity maps of the RF coils, respectively, on the basis of echo data received from the plurality of RF coils of the multicoil and echo data acquired from a pre-scan; second production means for producing second sensitivity maps by fitting GCS (Global Coverage Splines) to the first sensitive maps, respectively, wherein the second production means has a means for performing processing including automatic positioning of a basis function of the GCS by using a grid in which grid points thereof become control points; reconstruction means for reconstructing echo data scanned by parallel MR imaging and received via the plurality of RF coils of the multicoil; and imaging obtaining means for obtaining the MR image by processing an image reconstructed by the reconstruction means, the processing including unfolding processing carried out using the second sensitivity maps.
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