Methods and apparatuses for relating multiple magnetic resonance physical parameters to myelin content in the brain
First Claim
Patent Images
1. A computerized method of generating a myelin tissue fraction map of a brain in a displayable form, comprising:
- generating at least one magnetic resonance (MR) sequence of the brain with an MR scanner, thereby producing a range of images having different signal intensities;
generating, in a computer based on using the range of images, a map of two or more observed physical properties of the brain, wherein a respective set of the two or more observed physical properties is determined for each voxel of the map; and
the two or more physical properties include at least two of longitudinal relaxation time T1, transverse relaxation time T2, and proton density PD or at least two properties based on longitudinal relaxation time T1, transverse relaxation time T2, and proton density (PD);
forming, in the computer, a simulation model by;
partitioning each voxel into at least a myelin fraction, a cellular fraction, and a free water fraction, each of the myelin, cellular, and free water fractions having corresponding longitudinal relaxation rate (R1), a corresponding transversal relaxation rate (R2) and a corresponding PD,determining a first magnetic evolution coupling between the myelin fraction and the cellular fraction, and determining a second magnetic evolution coupling between the cellular fraction and the free water fraction,providing values for the myelin, cellular, and free water fractions, andgenerating values of longitudinal relaxation rate (R1), transversal relaxation rate (R2) and PD corresponding to the provided values of the myelin, cellular, and free water fractions based on the provided values and the first and second magnetic evolution couplings; and
assigning, in the computer to each voxel of the map, at least a myelin tissue fraction by matching the voxels'"'"' observed R1, R2, and PD to a set of R1, R2, and PD generated by the simulation model, the myelin tissue fraction assigned corresponding to a myelin fraction used in the simulation model to generate the set of R1, R2, and PD, thereby generating the myelin tissue fraction map of the brain.
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Abstract
A computerized method of generating a map of myelin tissue of a brain is described. In addition sub-maps of different myelin contents can be imaged. The method uses a simulation model comprising at least two interacting tissue compartments.
23 Citations
19 Claims
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1. A computerized method of generating a myelin tissue fraction map of a brain in a displayable form, comprising:
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generating at least one magnetic resonance (MR) sequence of the brain with an MR scanner, thereby producing a range of images having different signal intensities; generating, in a computer based on using the range of images, a map of two or more observed physical properties of the brain, wherein a respective set of the two or more observed physical properties is determined for each voxel of the map; and
the two or more physical properties include at least two of longitudinal relaxation time T1, transverse relaxation time T2, and proton density PD or at least two properties based on longitudinal relaxation time T1, transverse relaxation time T2, and proton density (PD);forming, in the computer, a simulation model by; partitioning each voxel into at least a myelin fraction, a cellular fraction, and a free water fraction, each of the myelin, cellular, and free water fractions having corresponding longitudinal relaxation rate (R1), a corresponding transversal relaxation rate (R2) and a corresponding PD, determining a first magnetic evolution coupling between the myelin fraction and the cellular fraction, and determining a second magnetic evolution coupling between the cellular fraction and the free water fraction, providing values for the myelin, cellular, and free water fractions, and generating values of longitudinal relaxation rate (R1), transversal relaxation rate (R2) and PD corresponding to the provided values of the myelin, cellular, and free water fractions based on the provided values and the first and second magnetic evolution couplings; and assigning, in the computer to each voxel of the map, at least a myelin tissue fraction by matching the voxels'"'"' observed R1, R2, and PD to a set of R1, R2, and PD generated by the simulation model, the myelin tissue fraction assigned corresponding to a myelin fraction used in the simulation model to generate the set of R1, R2, and PD, thereby generating the myelin tissue fraction map of the brain. - View Dependent Claims (2, 3, 4, 5, 16)
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6. A computerized imaging system for generating a myelin tissue fraction map of a brain in a displayable form, comprising:
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a first imaging circuitry configured to generate, based on using a range of images produced from at least one magnetic resonance (MR) sequence, a map of at least two observed physical properties of the brain, wherein signal intensities of images are different;
a respective set of the at least two observed physical properties is generated for each voxel of the map; and
the at least two physical properties include at least one of longitudinal relaxation time T1, transverse relaxation time T2, and proton density PD or at least two physical properties based on longitudinal relaxation time T1, transverse relaxation time T2, and proton density;a simulation model in the computerized imaging system, that is formed by; partitioning each voxel into at least a myelin fraction, a cellular fraction, and a free water fraction, each of the myelin, cellular, and free water fractions having corresponding longitudinal relaxation rate (R1), a corresponding transversal relaxation rate (R2) and a corresponding PD, determining a first magnetic evolution coupling between the myelin fraction and the cellular fraction, and determining a second magnetic evolution coupling between the cellular fraction and the free water fraction, providing values for the myelin, cellular, and free water fractions, and generating values of longitudinal relaxation rate (R1), transversal relaxation rate (R2) and PD corresponding to the provided values of the myelin, cellular, and free water fractions based on the provided values and the first and second magnetic evolution couplings; and a second controller configured to match, for each voxel of the map, the voxels'"'"' observed R1, R2, and PD to a set of R1, R2, and PD generated by the simulation model; and a second imaging circuitry arranged to generate the displayable myelin tissue fraction map by assigning to each voxel of the map a myelin tissue fraction corresponding to the set of R1, R2, and PD that match the observed R1, R2, and PD. - View Dependent Claims (7, 8, 9, 10, 17, 18)
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11. A non-transitory computer-readable medium encoded with computer-readable instructions that, when executed by a computer, cause the computer to perform a method comprising:
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generating at least one magnetic resonance (MR) sequence of the brain with an MR scanner, thereby producing a range of images having different signal intensities; generating, in a computer based on using the range of images, a map of two or more observed physical properties of the brain, wherein a respective set of the two or more observed physical properties is determined for each voxel of the map; and
the two or more physical properties include at least two of longitudinal relaxation time T1, transverse relaxation time T2, and proton density PD or at least two properties based on longitudinal relaxation time T1, transverse relaxation time T2, and proton density PD;forming, in the computer, a simulation model by; partitioning each voxel into at least a myelin fraction, a cellular fraction, and a free water fraction, each of the myelin, cellular, and free water fractions having corresponding longitudinal relaxation rate (R1), a corresponding transversal relaxation rate (R2) and a corresponding PD, determining a first magnetic evolution coupling between the myelin fraction and the cellular fraction, and determining a second magnetic evolution coupling between the cellular fraction and the free water fraction, providing values for the myelin, cellular, and free water fractions, and generating values of longitudinal relaxation rate (R1), transversal relaxation rate (R2) and PD corresponding to the provided values of the myelin, cellular, and free water fractions based on the provided values and the first and second magnetic evolution couplings; and assigning, in the computer to each voxel of the map, at least a myelin tissue fraction by matching the voxels'"'"' observed R1, R2, and PD to a set of R1, R2, and PD generated by the simulation model, the myelin tissue fraction assigned corresponding to a myelin fraction used in the simulation model to generate the set of R1, R2, and PD, thereby generating a myelin tissue fraction map of the brain in a displayable form. - View Dependent Claims (12, 13, 14, 15, 19)
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Specification