Apparatus, methods, and devices for magnetic resonance imaging controlled by the position of a moveable RF coil
First Claim
1. A method for generating magnetic resonance (MR) images by an MR apparatus comprising:
- positioning a moveable radio-frequency (RF) coil holder in proximity to an object to be examined, positioning the object so that a part of the object in proximity to the RF coil holder is positioned in a homogeneity volume of a main magnetic field of the MR apparatus;
determining a current 3D position and a current 3D orientation of the moveable RF coil holder, determining magnetic field gradient pulses and RF pulses for exciting nuclear magnetization in a region of interest with a 3D position and a 3D orientation located relative to the current 3D position and the current 3D orientation of the moveable RF coil holder, applying the determined magnetic field gradient pulses and RF pulses in order to excite nuclear magnetization in the determined region of interest, receiving RF imaging signals that are generated by the excited nuclear magnetization by an RF coil in the moveable RF coil holder, and reconstructing an MR image of the region of interest from the received RF imaging signals.
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Accused Products
Abstract
Objects of this invention include provision of magnetic resonance (MR) imaging methods, MR apparatus, and radio-frequency (RF) receiving coil devices permitting interactive MR examination of a patient. In particular, this invention includes means for generating MR images by a moveable RF coil which can be moved across a patient during an MR examination. The MR apparatus includes a position detection system which detects the current position and orientation of the moveable RF coil. The coil can be hand held for manual movement or can be attached to mechanical manipulators for controlled movement. The imaging methods determine and generate magnetic gradient and RF pulse sequences to excite nuclear magnetization in a 3D region determined with respect to the current 3D position and 3D orientation of the moveable RF coil. The invention also includes moveable RF coils for receiving and transmitting which are configured and sized for convenient manipulation by an operator. A preferable moveable RF coil assembly includes markers necessary to interact with a particular position detection system, display means for displaying reconstructed images in real-time, and control means for operator entry of signals controlling the MR apparatus. This invention also includes a carrier medium with recorded program instructions for controlling a programmable MR apparatus to perform the disclosed methods.
210 Citations
16 Claims
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1. A method for generating magnetic resonance (MR) images by an MR apparatus comprising:
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positioning a moveable radio-frequency (RF) coil holder in proximity to an object to be examined, positioning the object so that a part of the object in proximity to the RF coil holder is positioned in a homogeneity volume of a main magnetic field of the MR apparatus;
determining a current 3D position and a current 3D orientation of the moveable RF coil holder, determining magnetic field gradient pulses and RF pulses for exciting nuclear magnetization in a region of interest with a 3D position and a 3D orientation located relative to the current 3D position and the current 3D orientation of the moveable RF coil holder, applying the determined magnetic field gradient pulses and RF pulses in order to excite nuclear magnetization in the determined region of interest, receiving RF imaging signals that are generated by the excited nuclear magnetization by an RF coil in the moveable RF coil holder, and reconstructing an MR image of the region of interest from the received RF imaging signals. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. An MR system for generating magnetic resonance (MR) images of a region of interest of an object to be examined comprising:
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a main field magnet for generating a steady magnetic field in the region of interest, a magnetic field gradient system for generating temporary gradients in the steady magnetic field in the region of interest, a radio-frequency (RF) transmitter system for transmitting RF pulses to the region of interest, a moveable RF receiving coil assembly that includes (i) a moveable RF coil holder including an RF receiving coil for receiving RF imaging signals for reconstructing an MR image, (ii) means for providing position signals representative of a 3D position and a 3D orientation of the RF coil holder, (iii) means for displaying to the operator reconstructed MR images, and (iv) means for manipulating the moveable RF coil holder and the means for displaying, a position detection system for detecting the position signals, an RF receiver for receiving RF imaging signals from the RF receiver coil, control means responsive to the detected position signals for (i) controlling the position detection system to determine the current 3D position and the current 3D orientation of the moveable RF receiving coil holder, (ii) determining magnetic field gradient pulses and RF pulses for exciting nuclear magnetization in a region determined with respect to the current 3D position and the current 3D orientation of the moveable RF receiving coil holder, (iii) controlling the magnetic field gradient system and the RF transmitter system to apply the determined magnetic field gradient pulses and RF pulses in order to excite nuclear magnetization in the determined region, (iv) controlling the RF receiver to receive RF imaging signals generated by the excited nuclear magnetization, and (v) reconstructing an MR image of the region of interest from received MR imaging signals, and positioning means to position the object so that a part of the object in proximity to the RF coil holder is positioned in a homogeneity volume of the main magnets field. - View Dependent Claims (14, 15, 16)
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Specification