Faraday shield localized coil for magnetic resonance imaging
First Claim
1. A magnetic resonance apparatus comprising:
- a main magnetic field generating means for generating a magnetic field through an examination region;
a magnetic resonance excitation means for exciting magnetic resonance of nuclei of a subject in the examination region;
a localized coil assembly for receiving radio frequency signals from the resonating nuclei, the coil assembly including;
an inner conductor having a first end, a second end, and defining a first current path adjacent a surface of the subject;
an outer conductor defining a current path along the inner conductor and at least partially therearound, the outer conductor being disposed between the surface of the subject and the inner conductor, the outer conductor having interconnected first and second ends and at least one opening therein between the subject surface and the inner conductor;
a connecting means for electrically connecting the inner conductor first end with the outer conductor second end; and
,an interface means connected with second ends of the inner and outer conductors for interconnecting the conductors with a cable extending to a receiver that is out of the magnetic field, the interface means being disposed within the magnetic field.
1 Assignment
0 Petitions
Accused Products
Abstract
Magnet (12) creates a main magnetic field along a z-axis through an image region. A localized coil (D) is disposed in the image region at least to receive magnetic resonance signals from nuclei of the subject which have been induced to resonance. The localized coil includes an inner conductor (30), an outer conductor (32), and a dielectric material (52) therebetween. The outer conductor defines a gap (50) midway between its ends. One end of the inner conductor is connected with a gate of an FET transistor (66) and the outer conductor is connected with its source. The transistor source and drain are connected by a coaxial transmission cable (38) with a DC power supply (70) which provides a DC bias across the transistor source and drain. The cable also connects the transistor with a radio frequency receiver (40) to convey preamplified magnetic resonance signals thereto. The other end of the inner conductor may be connected with the outer conductor to provide an unbalanced localized coil or the ends may each be connected with an FET transistor (66a, 66 b) in a balanced coil arrangement (FIG. 9).
67 Citations
24 Claims
-
1. A magnetic resonance apparatus comprising:
-
a main magnetic field generating means for generating a magnetic field through an examination region; a magnetic resonance excitation means for exciting magnetic resonance of nuclei of a subject in the examination region; a localized coil assembly for receiving radio frequency signals from the resonating nuclei, the coil assembly including; an inner conductor having a first end, a second end, and defining a first current path adjacent a surface of the subject; an outer conductor defining a current path along the inner conductor and at least partially therearound, the outer conductor being disposed between the surface of the subject and the inner conductor, the outer conductor having interconnected first and second ends and at least one opening therein between the subject surface and the inner conductor; a connecting means for electrically connecting the inner conductor first end with the outer conductor second end; and
,an interface means connected with second ends of the inner and outer conductors for interconnecting the conductors with a cable extending to a receiver that is out of the magnetic field, the interface means being disposed within the magnetic field. - View Dependent Claims (2, 3, 4, 5, 6, 7)
-
-
8. A magnetic resonance apparatus comprising:
-
a main magnetic field generating means for generating a magnetic field through an examination region; a magnetic resonance excitation means for exciting magnetic resonance of nuclei of a subject in the examination region; a localized coil assembly for receiving radio frequency signals from the resonating nuclei, the coil assembly including; an inner conductor defining a first current path adjacent a surface of the subject; an outer conductor defining a current path along the inner conductor and at least partially therearound, the outer conductor being disposed between the surface of the subject and the inner conductor, the outer conductor having at least one opening therein between the subject surface and the inner conductor; a connecting means for electrically connecting adjacent first ends of the inner and outer conductors; and
,an interface means connected with second ends of the inner and outer conductors for interconnecting the conductors with a cable extending to a receiver, the interface means including a transistor with its gate or base connected with the inner conductor and a capacitor connected between the inner and outer conductors.
-
-
9. A magnetic resonance apparatus comprising:
-
a main magnetic field generating means for generating a magnetic field through an examination region; a magnetic resonance excitation means for exciting magnetic resonance of nuclei of a subject in the examination region; a localized coil assembly for receiving radio frequency signals from the resonating nuclei, the coil assembly including; an inner conductor defining a first current path adjacent a surface of the subject; an outer conductor defining a current path along the inner conductor and at least partially therearound, the outer conductor being disposed between the surface of the subject and the inner conductor, the outer conductor having at least one opening therein between the subject surface and the inner conductor; a connecting means for electrically connecting adjacent first ends of the inner and outer conductors; and
,an interface means connected with and adjacent second ends of the inner and outer conductors for interconnecting the conductors with a cable extending to a receiver, the interface means including an FET transistor having its gate electrically connected with the inner conductor, its source connected with the outer conductor and with a first conductor of the cable, and its drain connected with a second conductor of the cable. - View Dependent Claims (10, 11)
-
-
12. A magnetic resonance apparatus comprising:
-
a main magnetic field generating means for generating a magnetic field through an examination region; a magnetic resonance excitation means for exciting magnetic resonance of nuclei of a subject in the examination region; a localized coil assembly for receiving radio frequency signals from the resonating nuclei, the coil assembly including; an inner conductor defining a first current path adjacent a surface of the subject; a generally semicircular outer conductor defining a current path along the inner conductor and at least partially therearound, the outer conductor being disposed between the surface of the subject and the inner conductor, the outer conductor having at least one opening therein between the subject surface and the inner conductor; a connecting means for electrically connecting adjacent first ends of the inner and outer conductors; and
,an interface means connected with and adjacent second ends of the inner and outer conductors for interconnecting the conductors with a cable extending to a receiver.
-
-
13. A magnetic resonance apparatus comprising:
-
a main magnetic field generating means for generating a magnetic field through an examination region; a magnetic resonance excitation means for exciting magnetic resonance of nuclei of a subject in the examination region; a localized coil assembly for receiving radio frequency signals from the resonating nuclei, the col assembly including; an inner conductor defining a first current path adjacent a surface of the subject; an outer conductor defining a current path along the inner conductor and at least partially therearound, the outer conductor being disposed between the surface of the subject and the inner conductor, the outer conductor having at least one opening therein between the subject surface and the inner conductor; a connecting means for electrically connecting adjacent first ends of the inner and outer conductors; at least one capacitor connected in series with the inner conductor and between its first and second ends; and
,an interface means connected with and adjacent second ends of the inner and outer conductors for interconnecting the conductors with a cable extending to a receiver.
-
-
14. A magnetic resonance apparatus comprising:
-
a main magnetic field generating means for generating a magnetic field through an examination region; a magnetic resonance excitation means for exciting magnetic resonance of nuclei of a subject in the examination region; a localized coil assembly for receiving radio frequency signals from the resonating nuclei, the coil assembly including; an inner conductor defining a first current path adjacent a surface of the subject; an outer conductor defining a current path along the inner conductor and at least partially therearound, the outer conductor being disposed between the surface of the subject and the inner conductor, the outer conductor having at least one opening therein between the subject surface and the inner conductor; a pair of crossed diodes electrically connected with the outer conductor across the opening; a connecting means for electrically connecting adjacent first ends of the inner and outer conductors; at least one capacitor connected in series with the inner conductor and between its first and second ends; and
,an interface means connected with and adjacent second ends of the inner and outer conductors for interconnecting the conductors with a cable extending to a receiver.
-
-
15. A magnetic resonance apparatus comprising:
-
a main magnetic field generating means for generating a magnetic field through an examination region; a magnetic resonance excitation means for exciting magnetic resonance of nuclei of a subject in the examination region; a localized coil assembly for receiving radio frequency signals from the resonating nuclei, the coil assembly including; an inner conductor defining at least one loop between first and second ends thereof, a Faraday shield means including a first conductive portion extending along the inner conductor from adjacent the inner conductor first end and between the inner conductive and the surface of the subject and a second conductive portion extending along the inner conductor from adjacent the inner conductor second end and between the inner conductor and the surface of the subject, the first and second conductive portions defining a gap therebetween, a first FET transistor having a gate connected with the inner conductor first end, a source connected with the Faraday shield first and second conductive portions and by a transmission cable to a receiver, and a drain connected by the transmission cable to the receiver. - View Dependent Claims (16, 17, 18)
-
-
19. A localized coil assembly for receiving radio frequency signals from the resonating nuclei, the coil assembly including:
-
an inner conductor defining a first current path adjacent a surface of the subject; an outer conductor defining a current path along the inner conductor and at least partially therearound, the outer conductor being disposed between the surface of the subject and the inner conductor, the outer conductor having interconnected first and second ends and at least one opening therein between the subject surface and the inner conductor; a connecting means for electrically connecting a first end of the inner conductor with the connected and outer conductor first and second ends; and
,an interface means connected with and immediately adjacent the interconnected inner conductor first end and the outer conductor first and second ends and with an inner conductor second end for coupling the col assembly with a cable extending to a remotely located receiver. - View Dependent Claims (20)
-
-
21. A localized coil assembly for receiving radio frequency signals from the resonating nuclei, the coil assembly including:
-
an inner conductor defining at least one loop between first and second ends thereof; a Faraday shield including a first conductive portion extending along the inner conductor from adjacent the inner conductor first end and between the inner conductor and the surface of the subject and a second conductive portion extending along the inner conductor from adjacent the inner conductor second end and between the inner conductor and the surface of the subject, the first and second conductive portions defining a gap therebetween; an FET transistor having a gate connected with the inner conductor, a source connected with the Faraday shield first and second conductive portions, and a drain connected with a transmission cable extending to a receiver. - View Dependent Claims (22)
-
-
23. A magnetic resonance method comprising:
-
disposing an outer conductor parallel to and at least partially around an inner conductor, the outer conductor having an electrical discontinuity therein; connecting the outer conductor and one end of the inner conductor with a ground; connecting at least one end of the inner conductor with a preamplifier, which preamplifier is disposed immediately contiguous to the connected ends of the inner and outer conductors; connecting the preamplifier with a radio frequency receiver located outside of a magnetic field; disposing a subject in the magnetic field; disposing the inner and outer conductors and the preamplifier within the magnetic field adjacent a surface of a region of interest of the subject; exciting magnetic resonance of nuclei in the region of interest of the subject such that radio frequency magnetic resonance signals are generated; receiving the magnetic resonance signals with the inner conductor, amplifying the magnetic resonance signals with the preamplifier, and conducting the amplified magnetic resonance signals to the receiver.
-
-
24. A localized coil assembly for receiving radio frequency signals from resonating nuclei, the coil assembly including:
-
an inner conductor defining a current path between first and second ends; an outer conductor having first and second ends and defining a current path along the inner conductor and being disposed at least partially therearound, the outer conductor being disposed between a surface of a subject and the inner conductor, the outer conductor having at least one opening therein between its first and second ends and between the subject surface and the inner conductor; a first transistor having its gate or base connected with the first end of the inner conductor; a second transistor having its gate or base interconnected with the second end of the inner conductor, the first and second transistors both being connected with the outer conductor and with a cable for carrying received radio frequency signals to a remotely located receiver.
-
Specification