Patent Document ID: 20120271146
Application ID: 13450703
Patent Status: 0

Claim One:
1. A method for removing at least one part of a MR brain image, the part representing non-brain tissue of the MR brain image, which method comprises the steps of: generating a static magnetic field capable of aligning moments of nuclei of a target to be imaged with a direction parallel with the static magnetic field magnetic; generating at least one excitation radio frequency pulse (a) capable of exciting atom nuclei of the target being magnetized by the static magnetic field, and capable of deflecting the moments of nuclei from a direction of the static magnetic field; generating for a first and a second predefined time period at least a first and a second magnetic field gradient, each capable of magnetizing the atom nuclei of the target and each designed for determining positional or spatial information of an excited atom nuclei of the target, the first and the second magnetic field gradient being oppositely directed magnetic field gradients; acquiring a current signal for each generated magnetic field gradient, respectively at a first time of echo TE 1 after the excitation radio frequency pulse (α) and at a second time of echo TE 2 after the excitation radio frequency pulse (α), by means of at least one induction coil designed for surrounding the target and capable of generating the current signal from a deflection of the moments of nuclei according to induction; reconstructing the MR brain image of an internal structure of the target from the current signal by means of computational processing of the current signal; and adjusting the first time of echo TE 1 and the second time of echo TE 2 for correlating a second and first time of echo difference ΔTE=TE 2 -TE 1 with a fat and water mutual resonance frequency difference δ, and in that fat and water information encoded in the current signal and resulting from a correlation of the second and first time of echo difference ΔTE with a fat and water mutual resonance frequency difference being used as an additional input source into a multispectral analysis method for removing the at least one part representing the non-brain tissue.