MAGNETIC RESONANCE SYSTEM WITH IMPLANTABLE COMPONENTS AND METHODS OF USE THEREOF
First Claim
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1. A nuclear magnetic resonance system for measuring magnetic resonance signals from a sample contained in a sample volume in-vivo, the system comprising:
- (a) a magnet or magnetic field generator positioned to provide a magnetic field in a sample volume, the magnetic field being suitable to allow measuring magnetic resonance signal;
(b) a probehead suitable for partial or complete implantation in a subject, the probehead comprising a radiofrequency circuit that includes a radiofrequency coil wound to form a space capable of accommodating a sample volume and a port, the port allowing a sample to enter the sample volume, wherein the sample volumecontains magnetic particles and the port is adapted to allow an analyte to enter the sample volume and to prevent, partly or completely, the magnetic particles from leaving the sample volume;
(c) an external coil for disposition outside the subject'"'"'s body, wherein the external coil is suitable for inductive coupling to the radiofrequency circuit to form a radiofrequency resonant circuit; and
(d) a control unit for disposition outside the subject'"'"'s body, wherein the control unit is connected to the external coil and comprises logic circuitry to control the radiofrequency resonant circuit and allows acquisition and processing of magnetic resonance signal received by the radiofrequency resonant circuit.
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Abstract
Nuclear magnetic resonance systems and methods of use thereof are provided. The systems employ implantable radiofrequency coils (105) and optionally implantable magnets (101). The systems can employ weak permanent magnets and/or permanent magnets that provide magnetic fields that are much less homogeneous than in conventional systems. This allows, for example, for inexpensive and simple probeheads for nuclear magnetic resonance relaxometry with suitable biosensors. The methods of the present invention allow in-vivo magnetic resonance measurements and, in particular, monitoring of analytes and determination of medical diagnostic information, for example, based on determined magnetic resonance parameters.
29 Citations
6 Claims
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1. A nuclear magnetic resonance system for measuring magnetic resonance signals from a sample contained in a sample volume in-vivo, the system comprising:
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(a) a magnet or magnetic field generator positioned to provide a magnetic field in a sample volume, the magnetic field being suitable to allow measuring magnetic resonance signal; (b) a probehead suitable for partial or complete implantation in a subject, the probehead comprising a radiofrequency circuit that includes a radiofrequency coil wound to form a space capable of accommodating a sample volume and a port, the port allowing a sample to enter the sample volume, wherein the sample volume contains magnetic particles and the port is adapted to allow an analyte to enter the sample volume and to prevent, partly or completely, the magnetic particles from leaving the sample volume; (c) an external coil for disposition outside the subject'"'"'s body, wherein the external coil is suitable for inductive coupling to the radiofrequency circuit to form a radiofrequency resonant circuit; and (d) a control unit for disposition outside the subject'"'"'s body, wherein the control unit is connected to the external coil and comprises logic circuitry to control the radiofrequency resonant circuit and allows acquisition and processing of magnetic resonance signal received by the radiofrequency resonant circuit.
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2. A nuclear magnetic resonance system for measuring magnetic resonance relaxation signals from a sample contained in a sample volume in-vivo, the system comprising:
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(a) a permanent magnet or magnetic field generator for disposition outside a subject'"'"'s body and near a sample volume to provide a magnetic field in a sample volume, the magnetic field being suitable to allow measuring magnetic resonance relaxation signal; (b) a probehead suitable for partial or complete implantation in a subject, the probehead comprising a radiofrequency circuit that includes a radiofrequency coil wound to form a space capable of accommodating a sample volume and a port, the port allowing a sample to enter the sample volume; (c) an external coil for disposition outside the subject'"'"'s body, wherein the external coil is suitable for inductive coupling to the radiofrequency circuit to form a radiofrequency resonant circuit; and (d) a control unit for disposition outside the subject'"'"'s body, wherein the control unit is connected to the external coil and comprises logic circuitry to control the radiofrequency resonant circuit and allows acquisition and processing of magnetic resonance relaxation signal received by the radiofrequency resonant circuit.
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3. A nuclear magnetic resonance system for measuring magnetic resonance relaxation signals from a sample contained in a sample volume in-vivo, the system comprising:
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(a) a probehead suitable for partial or complete implantation in a subject, the probehead comprising; (a1) a radiofrequency circuit that includes a capacitor and a radiofrequency coil wound to form a space capable of accommodating a sample volume and a port, the port allowing a sample to enter the sample volume; (a2) a permanent magnet positioned near or around the radiofrequency coil to provide a magnetic field in the sample volume, the magnetic field being suitable to allow measuring magnetic resonance relaxation signal; (b) an external coil for disposition outside the subject'"'"'s body, wherein the external coil is suitable for inductive coupling to the radiofrequency circuit to form a radiofrequency resonant circuit; and (c) a control unit for disposition outside the subject'"'"'s body, wherein the control unit is connected to the external coil and comprises logic circuitry to control the radiofrequency resonant circuit and allows acquisition and processing of magnetic resonance relaxation signal received by the radiofrequency resonant circuit.
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4. A nuclear magnetic resonance system for measuring magnetic resonance relaxation signals from a sample contained in a sample volume in-vivo, the system comprising:
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(a) a permanent magnet or magnetic field generator for disposition outside a subject'"'"'s body and near a sample volume to provide a magnetic field in a sample volume, the magnetic field being suitable to allow measuring magnetic resonance relaxation signal; (b) a probehead suitable for partial or complete implantation in a subject, the probehead comprising a radiofrequency circuit that includes a radiofrequency coil wound to form a space capable of accommodating a sample volume and a port, the port allowing a sample to enter the sample volume, wherein the sample volume contains at least one sensor particle and the port is adapted to allow an analyte to enter the sample volume and to prevent, partly or completely, the one or more sensor particles from leaving the sample volume; (c) an external coil for disposition outside the subject'"'"'s body, wherein the external coil is suitable for inductive coupling to the radiofrequency circuit to form a radiofrequency resonant circuit; and (d) a control unit for disposition outside the subject'"'"'s body, wherein the control unit is connected to the external coil and comprises logic circuitry to control the radiofrequency resonant circuit and allows acquisition and processing of magnetic resonance relaxation signal received by the radiofrequency resonant circuit.
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5. A nuclear magnetic resonance system for measuring magnetic resonance relaxation signals from a sample contained in a sample volume in-vivo, the system comprising:
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(a) a probehead suitable for partial or complete implantation in a subject, the probehead comprising a probehead suitable for partial or complete implantation within a subject'"'"'s body, the probehead comprising; (a1) a radiofrequency circuit that includes a capacitor and a radiofrequency coil wound to form a space capable of accommodating a sample volume and a port, the port allowing a sample to enter the sample volume, wherein the sample volume contains at least one sensor particle and the port is adapted to allow an analyte to enter the sample volume and to prevent, partly or completely, the one or more sensor particles from leaving the sample volume; (a2) a permanent magnet positioned near or around the radiofrequency coil to provide a magnetic field in the sample volume, the magnetic field being suitable to allow measuring magnetic resonance relaxation signal; (b) an external coil for disposition outside the subject'"'"'s body, wherein the external coil is suitable for inductive coupling to the radiofrequency circuit to form a radiofrequency resonant circuit; and (c) a control unit for disposition outside the subject'"'"'s body, wherein the control unit is connected to the external coil and comprises logic circuitry to control the radiofrequency resonant circuit and allows acquisition and processing of magnetic resonance relaxation signals received by the radiofrequency resonant circuit.
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6-50. -50. (canceled)
Specification
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Current AssigneeT2 Biosystems, Inc
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Original AssigneeT2 Biosystems, Inc
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InventorsLowery, Thomas J., Prado, Pablo J.
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Application NumberUS12/809,424Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current324/307CPC Class CodesA61B 5/055 involving electronic [EMR] ...A61B 5/413 Monitoring transplanted tis...G01R 33/281 Means for the use of in vit...G01R 33/285 Invasive instruments, e.g. ...G01R 33/34046 Volume type coils, e.g. bir...G01R 33/34084 implantable coils or coils ...G01R 33/341 comprising surface coilsG01R 33/36 Electrical details, e.g. ma...G01R 33/3692 involving signal transmissi...G01R 33/3808 Magnet assemblies for singl...G01R 33/465 applied to biological mater...
