Magnetic resonance imaging apparatus and method for control thereof
US-2016209484-A1 · Jul 21, 2016 · US
Magnetic resonance apparatus, and method for determining the position of a reception coil in the scanner thereof
US10215823B2 · US · B2
| Field | Value |
|---|---|
| Publication number | US-10215823-B2 |
| Application number | US-201715582254-A |
| Country | US |
| Kind code | B2 |
| Filing date | Apr 28, 2017 |
| Priority date | Apr 29, 2016 |
| Publication date | Feb 26, 2019 |
| Grant date | Feb 26, 2019 |
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Abstract
Official abstract text for this publication.
In order to determine the position of a reception coil in a magnetic resonance (MR) scanner of an MR apparatus, wherein the instrument has a reception coil, MR data are acquired from the reception coil along one direction in the scanner, and are provided to a processor that determines a position specification from the acquired MR data. The processor determines the position specification by initially executing a training period, using a first position specification establishment method, in order to produce a training period dataset, and then the training period dataset is used to establish a final position specification with a second position specification establishment method that differs from the first position specification establishment method.
First claim
Opening claim text (preview).
The invention claimed is: 1. A method for determining position information about a reception coil of an instrument that is to be localized within a magnetic resonance data acquisition scanner, said method comprising: operating said magnetic resonance data acquisition scanner to acquire magnetic resonance data from said reception coil by activating a read-out gradient in a single direction, and thereby obtaining, as said magnetic resonance data, one-dimensional magnetic resonance data having a peak structure; providing said magnetic resonance data from said reception coil to a processor and, in said processor, executing a training period comprising a plurality of iterations in each of which at least one training period dataset is generated by establishing a position specification, dependent on said peak structure, of said reception coil, said position specification designating a position of said reception coil in said scanner in a direction of said one-dimensional magnetic resonance data, using a first position specification establishing method and, upon fulfillment of a training criterion designating at least one of quality of the magnetic resonance data or quality of said position specification, terminating said training period and producing said at least one training data set by statistically calculating each position specification from each iteration of said training period into a training period position specification represented in said at least one training period dataset; after completion of said training period, determining a final position specification of said reception coil in said magnetic resonance scanner using a second position specification establishing method, that differs from said first position specification establishment method, by correlating said one-dimensional magnetic resonance data with said at least one training dataset obtained in said training period, and making said final position specification of said reception coil available in electronic form as an output from said processor. 2. A method as claimed in claim 1 comprising establishing said position specification in said training period in said first position specification establishment method as at least one of establishment of a signal spectral center of said peak structure, and using a phase-field dithering method. 3. A method as claimed in claim 1 comprising using, as said training criterion, a ratio of a signal level of the peak structure to a signal level of background noise of said magnetic resonance data, and comparing said ratio to a threshold value. 4. A method as claimed in claim 1 comprising using, as said training criterion, a check as to whether at least one signal width of said peak structure exceeds a threshold value around said position specification. 5. A method as claimed in claim 1 comprising averaging a result of each iteration of said training period for which said training criterion was satisfied, in order to produce said training period position specification in said at least one training period dataset. 6. A method as claimed in claim 1 comprising providing each training period position specification produced in each iteration of said training period for which said training criterion was fulfilled with a respective weighting that represents a quality value of that training period position specification, and generating said training period position specification in said at least one training period dataset as a combination of the respectively weighted training period position specifications. 7. A method as claimed in claim 1 comprising executing said training period based on an assumption that said reception coil is immobile in said MR data acquisition scanner. 8. A method as claimed in claim 1 comprising terminating said training period upon satisfaction of a termination criterion that designates a quality of the training period position specification produced in a currently last iteration of said training period. 9. A method as claimed in claim 8 comprising using, as said termination criterion, a comparison to a threshold value of a ratio of a signal level of the peak structure to a signal level of background noise. 10. A method as claimed in claim 1 comprising terminating said training period upon execution of a predetermined number of said iterations. 11. A method as claimed in claim 1 comprising, during said correlation in said second position specification establishment method, executing at least one of a cross-correlation and a maximization of a correlation value. 12. A method as claimed in claim 1 comprising updating said final position specification upon occurrence of a predetermined change in said magnetic resonance data or said final position specification. 13. A method as claimed in claim 12 comprising updating said final position specification by providing a weighting, dependent on a repetition frequency of determination of said final position specification, to at least one preceding final position specification, and using the weighted previous final position specification to update a current final position specification. 14. A method as claimed in claim 12 comprising using a sliding window to select magnetic resonance data that will be included in said updating. 15. A method as claimed in claim 1 comprising determining said final position specification for each of a plurality of directions, with separate comparison data being established and used for each of said separate directions. 16. A method as claimed in claim 15 wherein said separate directions are orthogonal to each other. 17. A magnetic resonance (MR) apparatus comprising: an MR data acquisition scanner and an instrument having a reception coil that is movably positionable in the MR data acquisition scanner, and a gradient coil arrangement in said MR data acquisition scanner; a computer configured to operate said MR data acquisition scanner to acquire MR data from said reception coil by operating said gradient coil arrangement to activate a read-out gradient in a single direction, and thereby obtaining, as said magnetic resonance data, one-dimensional magnetic resonance data having a peak structure; said computer being provided with said MR data from said reception coil and said computer being configured to execute a training period comprising a plurality of iterations in each of which at least one training period dataset is generated by establishing a position specification, dependent on said peak structure, of said reception coil, said position specification designating a position of said reception coil in said scanner in a direction of said one-dimensional magnetic resonance data, using a first position specification establishing method and, upon fulfillment of a training criterion designating at least one of quality of the magnetic resonance data or quality of said position specification, terminating said training period and producing said at least one training data set by statistically calculating each position specification from each iteration of said training period into a training period position specification represented in said at least one training period dataset; said computer being configured, after completion of said training period, to determine a final position specification of said reception coil in said magnetic resonance scanner using a second position specification establishing method, that differs from said first position specification establishment method, by correlating said one-dimensional magnetic resonance data with said at least one training dataset obtained in said training
Assignees
Inventors
Classifications
Excitation or detection systems, e.g. using radio frequency signals · CPC title
using gradient magnetic field coils · CPC title
- G01R33/543Primary
Control of the operation of the MR system, e.g. setting of acquisition parameters prior to or during MR data acquisition, dynamic shimming, use of one or more scout images for scan plane prescription (G01R33/546 takes precedence) · CPC title
- G01R33/287Primary
involving active visualization of interventional instruments, e.g. using active tracking RF coils or coils for intentionally creating magnetic field inhomogeneities · CPC title
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Frequently asked questions
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- What does patent US10215823B2 cover?
- In order to determine the position of a reception coil in a magnetic resonance (MR) scanner of an MR apparatus, wherein the instrument has a reception coil, MR data are acquired from the reception coil along one direction in the scanner, and are provided to a processor that determines a position specification from the acquired MR data. The processor determines the position specification by init…
- Who is the assignee on this patent?
- Siemens Healthcare Gmbh
- What technology area does this patent fall under?
- Primary CPC classification G01R33/543. Mapped technology areas include Physics.
- When was this patent published?
- Publication date Tue Feb 26 2019 00:00:00 GMT+0000 (Coordinated Universal Time) (B2). Legal status and post-grant events are not shown on this page.
- What related patents are in patentsdb?
- We list 1 related publication on this page (citations in our corpus or others sharing the same primary CPC).