Removal of image artifacts in sense-mri

1 . A magnetic resonance imaging system comprising: a radio-frequency system for acquiring magnetic resonance data from an imaging zone, wherein the radio-frequency system comprises multiple antenna elements; a memory containing machine executable instructions and pulse sequence commands, wherein the pulse sequence commands cause the processor to acquire magnetic resonance data from the multiple antenna elements according to a SENSE protocol; a processor, wherein execution of the machine executable instructions causes the processor to: control the magnetic resonance imaging system with the pulse sequence commands to acquire the magnetic resonance data; reconstruct a preliminary image using the magnetic resonance imaging data; calculate a fit between an anatomical model and the preliminary image, wherein the anatomical model comprises a motion likelihood map; identify at least one image artifact origin at least partially using the motion likelihood map and the fit; determine an extended SENSE equation at least partially using at least one image artifact origin; and construct a corrected SENSE image using the extended SENSE equation. 2 . The magnetic resonance imaging system of claim 1 , wherein execution of the machine executable instructions causes the processor to: reconstruct a measured coil image for each of the multiple antenna elements using the magnetic resonance data; construct a preliminary SENSE image by using a set of coil sensitivities to combine the measured coil image of each of the multiple antenna elements according to the SENSE protocol. 3 . The magnetic resonance imaging of claim 2 , wherein the preliminary image comprises the preliminary SENSE image. 4 . The magnetic resonance imaging system of claim 2 wherein execution of the machine executable instructions further causes the processor to: construct a backprojected image for each of the multiple antenna elements using the preliminary SENSE image and the coil sensitivities; and compare the backprojected image to the measured coil image for each of the multiple antenna elements to identify a set of affected voxels for each of the multiple antenna elements; wherein the identification of the at least one image artifact origin is performed in image space; wherein the identification of the at least one image artifact origin is performed at least partially using the set of affected voxels at least partially using the motion likelihood map and the fit. 5 . The magnetic resonance imaging system of claim 4 , wherein the at least one image artifact origin is corrected by numerically searching for a maximum of a consistency measure within a predetermined vicinity of each of the at least one image artifact origin before constructing the corrected SENSE image, wherein the consistency measure is dependent upon the difference between the set of affected voxels in the preliminary SENSE image and backprojected trial SENSE images for each of the multiple antenna elements, wherein the backprojected trial sense images are constructed from a trial SENSE image, wherein the trial sense image is constructed using a trial SENSE equation. 6 . The magnetic resonance imaging system of claim 5 , wherein the trial SENSE equation that maximizes the consistency measure is the extended SENSE equation. 7 . The magnetic resonance imaging system of claim 4 , wherein execution of the machine executable instructions further causes the processor to modify the at least one image artifact origin by registering the set of affected voxels to the preliminary image. 8 . The magnetic resonance imaging system of claim 1 , wherein the extended SENSE equation is chosen to minimize a contribution from at least a portion of the at least one image artifact origin. 9 . The magnetic resonance imaging system of claim 1 , wherein the preliminary image comprises a survey scan image. 10 . The magnetic resonance imaging system of claim 1 , wherein the at least one image artifact origin is two-dimensional or three-dimensional. 11 . A computer program product comprising machine executable instructions for execution by a processor controlling a magnetic resonance imaging system, wherein the magnetic resonance imaging system comprises a radio-frequency system for acquiring magnetic resonance data from an imaging zone, wherein the radio-frequency system comprises multiple antenna elements, wherein execution of the machine executable instructions causes the processor to: control the magnetic resonance imaging system with pulse sequence commands to acquire the magnetic resonance data, wherein the pulse sequence commands cause the processor to acquire magnetic resonance data from the multiple antenna elements according to a SENSE protocol; reconstruct a preliminary image using the magnetic resonance imaging data; calculate a fit between an anatomical model and the preliminary image, wherein the anatomical model comprises a motion likelihood map; identify at least one image artifact origin at least partially using the motion likelihood map and the fit; determine an extended SENSE equation at least partially using at least one image artifact origin; and construct a corrected SENSE image using the extended SENSE equation. 12 . A method of operating a magnetic resonance imaging system wherein the magnetic resonance imaging system comprises a radio-frequency system for acquiring magnetic resonance data from an imaging zone, wherein the radio-frequency system comprises multiple antenna elements, wherein the method comprises the steps of: controlling the magnetic resonance imaging system with pulse sequence commands to acquire the magnetic resonance data, wherein the pulse sequence commands cause the processor to acquire magnetic resonance data from the multiple antenna elements according to a SENSE protocol; reconstructing a preliminary image using the magnetic resonance imaging data; calculating a fit between an anatomical model and the preliminary image, wherein the anatomical model comprises a motion likelihood map; identifying at least one image artifact origin at least partially using the motion likelihood map and the fit; determining an extended SENSE equation at least partially using at least one image artifact origin; and constructing a corrected SENSE image using the SENSE equation. 13 . The method of claim 12 , wherein the method further comprises: reconstructing a measured coil image for each of the multiple antenna elements using the magnetic resonance data; constructing a preliminary SENSE image by using a set of coil sensitivities to combine the measured coil image for each of the multiple antenna elements according to the SENSE protocol; constructing a backprojected image for each of the multiple antenna elements using the preliminary SENSE image and the coil sensitivities; and comparing the backprojected image to the measured coil image for each of the multiple antenna elements to identify a set of affected voxels for each of the multiple antenna elements; wherein the identification of the at least one image artifact origin is performed in image space; wherein the identification of the at least one image artifact origin is performed at least partially using the set of affected voxels at least partially using the motion likelihood map and the fit or registration, wherein the at least one image artifact origin is corrected by numerically searching for a maximum of a consistency measure within a predetermined vicinity of each of the at least one image artifact origin before constructing the corrected SENSE image, wherein the consistency measure is dependent upon the differe