Magnetic resonance imaging apparatus and magnetic resonance imaging method

US 9,107,589 B2
Filed: 10/04/2012
Issued: 08/18/2015
Est. Priority Date: 10/13/2010
Status: Active Grant

First Claim

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1. A magnetic resonance imaging (MRI) apparatus comprisingMRI gantry components including static and gradient magnetic field generators, at least one radio frequency (RF) coil coupled to an imaging volume, at least one RF transmitter, at least one RF receiver and at least one control computer having a processor and memory configured to control said gantry components so as to effect operations including:

collecting a plurality of fluid images that are MR images of a fluid traveling through a subject, each of said MR images having been acquired by execution of an MRI pulse sequence at a different cardiac phase;

specifying a traveled distance of the fluid between different cardiac phases by using a difference image between a reference image that is one of the fluid images and each other fluid image;

acquiring an elapsed time corresponding to the traveled distance of the fluid between different cardiac phases based on MRI pulse sequence information that was used to collect the fluid images at said different cardiac phases; and

calculating a flow velocity of the fluid for each said different cardiac phase by dividing the traveled distance by the elapsed time for each said different cardiac phase,wherein the elapsed time is an elapsed time in which MR signals with which the center part of a k space is filled are collected.

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Abstract

A magnetic resonance imaging apparatus includes a collecting unit, a specifying unit, an acquiring unit and a calculating unit. The collecting unit collects a plurality of fluid images that are images of a fluid traveling though a subject. The specifying unit specifies a distance traveled by the fluid by using a difference image between a reference image that is one of the fluid images and each fluid image. The acquiring unit acquires an elapsed time corresponding to the traveled distance from pulse sequence information that is used to collect the fluid images. The calculating unit calculates a flow velocity of the fluid by dividing the traveled distance by the elapsed time.

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15 Claims

1. A magnetic resonance imaging (MRI) apparatus comprisingMRI gantry components including static and gradient magnetic field generators, at least one radio frequency (RF) coil coupled to an imaging volume, at least one RF transmitter, at least one RF receiver and at least one control computer having a processor and memory configured to control said gantry components so as to effect operations including:
- collecting a plurality of fluid images that are MR images of a fluid traveling through a subject, each of said MR images having been acquired by execution of an MRI pulse sequence at a different cardiac phase;
  
  specifying a traveled distance of the fluid between different cardiac phases by using a difference image between a reference image that is one of the fluid images and each other fluid image;
  
  acquiring an elapsed time corresponding to the traveled distance of the fluid between different cardiac phases based on MRI pulse sequence information that was used to collect the fluid images at said different cardiac phases; and
  
  calculating a flow velocity of the fluid for each said different cardiac phase by dividing the traveled distance by the elapsed time for each said different cardiac phase,wherein the elapsed time is an elapsed time in which MR signals with which the center part of a k space is filled are collected.
- View Dependent Claims (2, 3, 4)
- - 2. The magnetic resonance imaging apparatus according to claim 1, wherein the processor is configured to control said gantry components so as to effect further operations including displaying information including the specific flow velocities on a display concurrent with display of at least one of the fluid images and the reference image for which a difference process with respect to the fluid images has been performed.
  - 3. The magnetic resonance imaging apparatus according to claim 1, wherein the traveled distance for each of said different cardiac phases is operator-specified by displaying a fluid image on a display and accepting an operator designation of a position in the displayed fluid image to which the fluid has reached.
  - 4. The magnetic resonance imaging apparatus according to claim 1, wherein the traveled distances are operator specified by an operator analyzing a displayed fluid image and designating said different cardiac phases corresponding to specified points along a path which the fluid has traveled.

5. A magnetic resonance imaging (MRI) comprisingMRI gantry components including static and gradient magnetic field generators, at least one radio frequency (RF) coil coupled to an imaging volume, at least one RF transmitter, at least one RF receiver and at least one control computer having a processor and memory configured to control said gantry components so as to effect operations including:
- collecting a plurality of fluid images that are images of a fluid traveling through a subject;
  
  specifying a traveled distance of the fluid by using a difference image between a reference image that is one of the fluid images and each other fluid image;
  
  acquiring an elapsed time corresponding to the traveled distance from pulse sequence information that is used to collect the fluid images; and
  
  calculating a flow velocity of the fluid by dividing the traveled distance by the elapsed time,wherein the elapsed time is an elapsed time in which MR signals with which the center part of a k space is filled are collected, andwherein (a) in a case of centric ordering in which phase encodes are arrayed from the center of the k space, a BBTI (black-blood time to inversion) time is acquired as the elapsed time from the pulse sequence information and (b) in a case of sequential ordering in which phase encodes are sequentially arrayed in the k space, a value obtained from the pulse sequence information by adding the BBTI time to a time corresponding to half of a phase encode number is acquired as the elapsed time.

6. A magnetic resonance imaging (MRI) apparatus comprisingMRI gantry components including static and gradient magnetic field generators, at least one radio frequency (RF) coil coupled to an imaging volume, at least one RF transmitter, at least one RF receiver and at least one control computer having a processor and memory configured to control said gantry components so as to effect operations including:
- collecting a plurality of fluid images at different cardiac phases, wherein the collecting includes collecting a first fluid image at systole in a cardiac cycle and successively collecting a plurality of second fluid images at time intervals that incrementally increase from the systole towards diastole in the cardiac cycle;
  
  specifying a traveled distance of the fluid in each second fluid image by using a difference image between the first fluid image and the second fluid image;
  
  acquiring an elapsed time corresponding to the traveled distance in each second fluid image from pulse sequence information that is used to collect the second fluid image; and
  
  calculating a flow velocity by dividing an accumulated traveled distance obtained by accumulating each traveled distance by an accumulated elapsed time obtained by accumulating each elapsed time.
- View Dependent Claims (7, 8, 9)
- - 7. The magnetic resonance imaging apparatus according to claim 6, wherein the processor is configured to control said gantry components so as to effect further operations including displaying information including the flow velocity on a display in at least one of the second fluid images and the first image for which a difference process with respect to the fluid images is performed.
  - 8. The magnetic resonance imaging apparatus according to claim 6, wherein the traveled distance is specified by displaying a fluid image on a display and accepting a designation of a position that the fluid has reached.
  - 9. The magnetic resonance imaging apparatus according to claim 6, wherein the traveled distance is specified by analyzing the image and tracking a path along which the fluid travels.

10. A magnetic resonance imaging (MRI) apparatus comprisingMRI gantry components including static and gradient magnetic field generators, at least one radio frequency (RF) coil coupled to an imaging volume, at least one RF transmitter, at least one RF receiver and at least one control computer having a processor and memory configured to control said gantry components so as to effect operations including:
- collecting a plurality of fluid images that are images of a fluid traveling through a subject, wherein a first fluid image is collected by performing imaging in which a spin of the fluid is not labeled and a plurality of second fluid images are collected by performing imaging in which a spin of the fluid is labeled and then echo signals of the spin are received after a time interval has elapsed for a plurality of times while changing the time interval for respective ones of the plurality of times;
  
  specifying a traveled distance of the fluid in each second fluid image by using a difference image between the first fluid image and the second fluid image;
  
  acquiring an elapsed time corresponding to the traveled distance in each second fluid image from pulse sequence information that is used to collect the second fluid image, andcalculating the flow velocity by dividing an accumulated traveled distance obtained by accumulating each traveled distance by an accumulated elapsed time obtained by accumulating each elapsed time.
- View Dependent Claims (11, 12, 13, 14, 15)
- - 11. The magnetic resonance imaging apparatus according to claim 10, wherein the plurality of fluid images are collected at different phases by using a Time-SLIP (time-sequential labeling inversion pulse) imaging method.
  - 12. The magnetic resonance imaging apparatus according to claim 10, whereinthe plurality of fluid images are collected at different phases by using a Time-SLIP imaging method using a FASE (fast asymmetric spin echo) method, andthe elapsed time is acquired as a value obtained from the pulse sequence information by adding a BBTI time to an effective time to echo (TEeff).
  - 13. The magnetic resonance imaging apparatus according to claim 10, wherein the processor is configured to control said gantry components so as to effect further operations including displaying information including the flow velocity on a display in at least one of the second fluid images and the first image for which a difference process with respect to the fluid images is performed.
  - 14. The magnetic resonance imaging apparatus according to claim 10, wherein the traveled distance is specified by displaying a fluid image on a display and accepting a designation of a position that the fluid has reached.
  - 15. The magnetic resonance imaging apparatus according to claim 10, wherein the traveled distance is specified by analyzing the image and tracking a path along which the fluid travels.

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Current Assignee
Toshiba Medical Systems Corporation (Canon Inc.)
Original Assignee
Toshiba Medical Systems Corporation (Canon Inc.), Kabushiki Kaisha Toshiba (Toshiba Corporation)
Inventors
Miyazaki, Mitsue
Primary Examiner(s)
KISH, JAMES M

Application Number

US13/644,338
Publication Number

US 20130096419A1
Time in Patent Office

1,048 Days
Field of Search

600/407, 600410-423, 382/128
US Class Current

1/1
CPC Class Codes

A61B 5/0044   for the heart

A61B 5/024   Detecting, measuring or rec...

A61B 5/0263   using NMR

A61B 5/029   Measuring or recording bloo...

A61B 5/055   involving electronic [EMR] ...

G01R 33/4838   using spatially selective s...

G01R 33/56308   Characterization of motion ...

G01R 33/5635   Angiography, e.g. contrast-...

Magnetic resonance imaging apparatus and magnetic resonance imaging method

First Claim

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Abstract

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Magnetic resonance imaging apparatus and magnetic resonance imaging method

First Claim

2 Assignments

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Abstract

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15 Claims

Specification

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