Magnetic resonance imaging receiver/transmitter coils

US 6,396,273 B2
Filed: 02/02/2001
Issued: 05/28/2002
Est. Priority Date: 11/26/1997
Status: Expired due to Fees

First Claim

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1. A magnetic resonance imaging system for forming images of a region of interest, comprising:

a first phased array coil formed of a plurality of electrically conductive members and defining a first array volume;

a second phased array coil formed of a second plurality of electrically conductive members and defining a second array volume, said second phased array coil disposed at least partially within the first array volume, said first and second phase array coils cooperating to define a coil subsystem; and

a coil interface subsystem operably coupled to the coil subsystem, said coil interface subsystem, in a first selectable state, processing RF power such that a substantially uniform first magnetic field is applied to the region of interest, and, in a second selectable state, receiving a response of the region of interest to the first magnetic field.

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Abstract

A magnetic resonance imaging receiver/transmitter coil system for providing images for regions of interest includes a first phased array formed of a plurality of electrically conductive members and defining an array volume and a second phased array formed of a second plurality of electrically conductive members and disposed at least partially within the defined array volume. At least one of the first and second phased arrays is adapted to apply a magnetic field to the defined array volume. At least one of the first and second phased arrays is further adapted to receive said applied magnetic field. The first phased array is extendible to define a further array volume and is provided with a switch for electrically coupling and decoupling an extension to effectively extend the length of the first phased array and thereby define the further array volume. In this manner the length of the first phased array is effectively extended to approximately twice its unextended length.

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25 Claims

1. A magnetic resonance imaging system for forming images of a region of interest, comprising:
- a first phased array coil formed of a plurality of electrically conductive members and defining a first array volume;
  
  a second phased array coil formed of a second plurality of electrically conductive members and defining a second array volume, said second phased array coil disposed at least partially within the first array volume, said first and second phase array coils cooperating to define a coil subsystem; and
  
  a coil interface subsystem operably coupled to the coil subsystem, said coil interface subsystem, in a first selectable state, processing RF power such that a substantially uniform first magnetic field is applied to the region of interest, and, in a second selectable state, receiving a response of the region of interest to the first magnetic field.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
- - 2. The magnetic resonance imaging system of claim 1 wherein said coil interface subsystem processes and directs the RF power, in the first selectable state, to (i) said first phased array coil or said second phased array coil or (ii) said first phased array coil and said second phased array coil.
  - 3. The magnetic resonance imaging system of claim 2 wherein said coil interface subsystem splits and phase-shifts the RF power to produce coil-exciting signals for delivery to the coil subsystem.
  - 4. The magnetic resonance imaging system of claim 3 wherein said coil interface subsystem is coupled, in the first selectable state, to said first phased array coil, the coil-exciting signals including at least first and second coil signals for delivery to said first phased array coil, the second coil signal being phase-shifted with respect to the first coil signal.
  - 5. The magnetic resonance imaging system of claim 3 wherein said coil interface subsystem is coupled, in the first selectable state, to said second phased array coil, the coil-exciting signals including at least first and second coil signals for delivery to said second phased array coil, the second coil signal being phase-shifted with respect to the first coil signal.
  - 6. The magnetic resonance imaging system of claim 3 wherein said coil interface subsystem is coupled, in the first selectable state, to said first and second phased array coils, said coil interface subsystem selectively attenuating the coil-exciting signals to produce first, second, third and fourth coil signals, the first and second coil signals being delivered to said first phased array coil, the second coil signal being phase-shifted with respect to the first coil signal, the third and fourth coil signals being delivered to said second phased array coil, the fourth coil signal being phase-shifted with respect to the third coil signal, the third and fourth coil signals being attenuated with respect to the first and second coil signals.
  - 7. The magnetic resonance imaging system of claim 1 wherein said second phased array coil is disposed completely within the first array volume.
  - 8. The magnetic resonance imaging system of claim 7 wherein said coil interface subsystem processes and directs RF power, in the first selectable state, to (i) said first phased array coil or said second phased array coil or (ii) said first phased array coil and said second phased array coil.
  - 9. The magnetic resonance imaging system of claim 8 wherein said coil interface subsystem splits and phase-shifts the RF power to produce coil-exciting signals for delivery to the coil subsystem.
  - 10. The magnetic resonance imaging system of claim 9 wherein said coil interface subsystem is coupled, in the first selectable state, to said first phased array coil, the coil-exciting signals including at least first and second coil signals for delivery to said first phased array coil, the second coil signal being phase-shifted with respect to the first coil signal.
  - 11. The magnetic resonance imaging system of claim 9 wherein said coil interface subsystem is coupled, in the first selectable state, to said second phased array coil, the coil-exciting signals including at least first and second coil signals for delivery to said second phased array coil, the second coil signal being phase-shifted with respect to the first coil signal.
  - 12. The magnetic resonance imaging system of claim 9 wherein said coil interface subsystem is coupled, in the first selectable state, to said first and second phased array coils, said coil interface subsystem selectively attenuating the coil-exciting signals to produce first, second, third and fourth coil signals, the first and second coil signals being delivered to said first phased array coil, the second coil signal being phase-shifted with respect to the first coil signal, the third and fourth coil signals being delivered to said second phased array coil, the fourth coil signal being phase-shifted with respect to the third coil signal, the third and fourth coil signals being attenuated with respect to the first and second coil signals.
  - 13. The magnetic resonance imaging system of claim 1, further comprising an extension element operably associated with and extending said first phased array coil to define a further array volume, said second phased array coil being disposed completely within the first array volume and the further array volume.
  - 14. The magnetic resonance imaging system of claim 1 wherein at least one of said first and second phased array coils is a volume coil.
  - 15. The magnetic resonance imaging system of claim 1 wherein both of the first and second phased array coils are volume coils.

16. A method of forming magnetic resonance images of a region of interest of a patient, the method comprising:
- positioning a coil subsystem in proximity to the region of interest, the coil subsystem comprising a first phased array coil formed of a plurality of electrically conductive members and defining a first array volume and a second phased array coil formed of a second plurality of electrically conductive members and defining a second array volume, the second phased array coil disposed at least partially within the first array volume;
  
  applying a substantially uniform first magnetic field to the region of interest through the coil subsystem; and
  
  receiving a response of the region of interest to the first magnetic field.
- View Dependent Claims (17, 18, 19, 20, 21, 22)
- - 17. The method of claim 16, further comprising:
18. The method of claim 17 wherein the processing step comprises directing RF power, in the first selectable state, to (i) the first phased array coil or the second phased array coil or (ii) the first phased array coil and the second phased array coil.
19. The method of claim 18 wherein the processing step comprises splitting and phase-shifting the RF power to produce coil-exciting signals for delivery to the coil subsystem.
20. The method of claim 19 wherein the coil interface subsystem is coupled, in the first selectable state, to the first phased array coil, the coil-exciting signals including at least first and second coil signals for delivery to the first phased array coil, the second coil signal being phase-shifted with respect to the first coil signal.
21. The method of claim 19 wherein the coil interface subsystem is coupled, in the first selectable state, to the second phased array coil, the coil-exciting signals including at least first and second coil signals for delivery to the second phased array coil, the second coil signal being phase-shifted with respect to the first coil signal.
22. The method of claim 19 wherein the coil interface subsystem is coupled, in the first selectable state, to the first and second phased array coils, the coil interface subsystem selectively attenuating the coil-exciting signals to produce first, second, third and fourth coil signals, the first and second coil signals being delivered to the first phased array coil, the second coil signal being phase-shifted with respect to the first coil signal, the third and fourth coil signals being delivered to the second phased array coil, the fourth coil signal being phase-shifted with respect to the third coil signal, the third and fourth coil signals being attenuated with respect to the first and second coil signals.

23. A method of forming magnetic resonance images of a region of interest of a patient, the method comprising:
- positioning a first phased array coil, formed of a plurality of electrically conductive members and defining a first array volume, in proximity to the region of interest;
  
  positioning a second phased array coil, formed of a second plurality of electrically conductive members and defining a second array volume, at least partially within the first array volume, said first and second phased array coils defining a coil subsystem;
  
  applying a substantially uniform first magnetic field to the region of interest through (i) the first phased array coil or the second phase array coil or (ii) the first phased array coil and the second phased array coil; and
  
  receiving a response of the region of interest to the first magnetic field.

24. A magnetic resonance imaging system for forming images of a region of interest, comprising:
- a first phased array coil formed of a plurality of electrically conductive members and defining a first array volume;
  
  a second phased array coil formed of a second plurality of electrically conductive members and defining a second array volume, said second phased array coil disposed at least partially within said first array volume; and
  
  an outer coil adapted to substantially encompass said first phased array coil and said second phased array coil, whereby excitation of said outer coil is inductively coupled to said first phased array coil and said second phased array coil.
- View Dependent Claims (25)
- - 25. The magnetic resonance imaging system of claim 24 wherein said outer coil is operable to apply a substantially uniform first magnetic field to region of interest within the first and second array volumes and said first and second phased array coils are operable to receive a second magnetic field generated by the region of interest in response to the first magnetic field.

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Litigation Campaign Assessment

Current Assignee
Medrad Incorporated (Bayer AG)
Original Assignee
Medrad Incorporated (Bayer AG)
Inventors
Misic, George J.
Primary Examiner(s)
ARANA, LOUIS M

Application Number

US09/776,132
Publication Number

US 20010005136A1
Time in Patent Office

480 Days
Field of Search

324/318,322,300,306,307,309
US Class Current

324/318
CPC Class Codes

G01R 33/3415 comprising arrays of sub-co...

Magnetic resonance imaging receiver/transmitter coils

First Claim

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Abstract

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25 Claims

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Magnetic resonance imaging receiver/transmitter coils

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

Citations

25 Claims

Specification

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Solutions

Use Cases

Quick Links