Patient infusion system for use with MRI
First Claim
1. battery..].8. A patient infusion system for use with a magnetic resonance imaging system, the patient infusion system comprising:
- a) a room shielded from electromagnetic interference;
b) a system controller located externally of the shielded room;
c) a patient infusion apparatus including infusion apparatus control means for controlling an infusion operation, the patient infusion apparatus located within the shielded room; and
,d) a fiber optic communications .Iadd.control .Iaddend.link between the
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Abstract
This invention relates generally to the field of Magnetic Resonance Imaging (MRI) systems for generating diagnostic images of a patient'"'"'s internal organs and more particularly, this invention relates to improved MRI systems with decreased interference between the magnetic field used for producing diagnostic images and the magnetic fields generated by the electric motors used for driving the pistons of the contrast media injectors. Additionally, the system employs an improved communication link between an externally located system controller and the injection head control unit located within the electromagnetic isolation barrier which defines the magnetic imaging room.
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Citations
20 Claims
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1. battery..].8. A patient infusion system for use with a magnetic resonance imaging system, the patient infusion system comprising:
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a) a room shielded from electromagnetic interference; b) a system controller located externally of the shielded room; c) a patient infusion apparatus including infusion apparatus control means for controlling an infusion operation, the patient infusion apparatus located within the shielded room; and
,d) a fiber optic communications .Iadd.control .Iaddend.link between the
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2. system controller and the infusion apparatus control means. 9. A patient infusion system for use with a magnetic resonance imaging system, the patient infusion system comprising:
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a) a room shielded from electromagnetic interference, which includes a viewing window; b) a system controller external to the shielded room; c) a patient infusion apparatus within the shielded room and including infusion apparatus control means for controlling an infusion operation; and
,d) a communicating .Iadd.control .Iaddend.link between the system controller and the infusion apparatus control means.Iadd., the control link adapted to be substantially non-reactive with the magnetic field of
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6. electromagnetic energy in the visual range. 13. A patient infusion system for use with a magnetic resonance imaging system to generate images of a patient, the patient infusion system comprising:
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a) a room shielded from electromagnetic interference by an electromagnetic shield including a viewing window; b) a system controller located outside the room; c) a patient infusion apparatus located inside the room including infusion apparatus control means for controlling an infusion operation; d) a communications .Iadd.control .Iaddend.link between the system controller and the infusion apparatus control means.Iadd., the control link adapted to be substantially non-reactive with the magnetic field of the imaging system.Iaddend.; and
,e) an electric drive motor and motor control circuitry separated from the patient infusion apparatus and a non-rigid drive connection between the electric drive motor and the patient infusion apparatus .[.whereby.]. .Iadd.wherein .Iaddend.the motor is positioned to be substantially non-reactive with .[.an electromagnetic.]. .Iadd.the magnetic
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- 13. feet from the patient. 20. The patient infusion system of claim 13,
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16. line..Iaddend.23. A method of patient infusion for use with a magnetic resonance imaging system, the method comprising the steps of:
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a) providing a room shielded from electromagnetic interference including a viewing window; b) providing a system controller located outside the room; c) providing a patient infusion apparatus including infusion apparatus control means for controlling an infusion operation, the patient infusion apparatus located inside the room; and d) transmitting control signals from the system controller to the infusion
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17. apparatus control means through the viewing window. .Iadd.24. The method of claim 23 wherein the control signals are transmitted via electromagnetic transceivers..Iaddend..Iadd.25. A patient infusion system for use with a magnetic resonance imaging system, the patient infusion system comprising:
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an infusion apparatus positioned within a room shielded from electromagnetic interference, the infusion apparatus comprising an injector adapted to accommodate at least two syringes mounted thereon for injecting fluid into a patient during a magnetic resonance imaging procedure, the at least two syringes operably engaged with at least one drive mechanism of the injector; and a system controller positioned external to the shielded room and in communication with the infusion apparatus for controlling the operation thereof..Iaddend..Iadd.26. The patient infusion system of claim 25 wherein the infusion apparatus further comprises an injector control unit positioned within the shielded room..Iaddend..Iadd.27. The patient infusion system of claim 26 wherein the injector control unit comprises a battery for powering the injector..Iaddend..Iadd.28. The patient infusion system of claim 26 wherein the injector control unit is remotely
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18. positioned from the injector..Iaddend..Iadd.29. The patient infusion system of claim 28 wherein the injector and the injector control unit are connected by a non-rigid drive connection..Iaddend..Iadd.30. The patient infusion system of claim 25 wherein the infusion apparatus and the system controller communicate with each other by means of a communication link disposed therebetween..Iaddend..Iadd.31. The patient infusion system of claim 30 wherein the communication link comprises a fiber optic line..Iaddend..Iadd.32. The patient infusion system of claim 30 wherein the communication link comprises means for transmitting and receiving electromagnetic radiation through a window in the shielded
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19. room..Iaddend..Iadd.33. A patient infusion system for use with a magnetic resonance imaging system, the patient infusion system comprising:
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an infusion apparatus positioned within a room shielded from electromagnetic interference, the infusion apparatus comprising an injector for injecting fluid into a patient during a magnetic resonance imaging procedure; a system controller positioned external to the shielded room; and a communication control link between the infusion apparatus and the system controller for controlling the operation of the infusion system, the control link adapted to be substantially non-reactive with the magnetic field of the imaging system..Iaddend..Iadd.34. The patient infusion system of claim 33, further comprising at least one battery for powering the infusion apparatus..Iaddend..Iadd.35. The patient infusion system of claim 34 wherein the system controller comprises a battery charger for recharging the at least one battery..Iaddend..Iadd.36. The patient infusion system of claim 33 wherein the injector is adapted to accommodate at least two syringes mounted thereon..Iaddend..Iadd.37. A method of infusing a patient with fluid during a magnetic resonance imaging procedure, the method comprising the following steps; providing an injector adapted to accommodate at least two syringes mounted thereon for injecting fluid into a patient during a magnetic resonance imaging procedure, the at least two syringes operably engaged with at least one drive mechanism of the injector, the injector positioned adjacent to the patient within a room shielded from electromagnetic interference; injecting fluid contained within the at least two syringes into the patient; and generating magnetic resonance images of the patient..Iaddend..Iadd.38. A method of patient infusion for use with a magnetic resonance imaging system, the method comprising the following steps; providing a room shielded from electromagnetic interference; providing a system controller positioned external to the shielded room; providing an infusion apparatus positioned within the shielded room; and transmitting control signals via a communication link between the system controller and the infusion apparatus, the control signals adapted to be substantially non-reactive with the magnetic field of the imaging
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20. system..Iaddend..Iadd.39. The method of claim 38 wherein the communication link comprises a fiber optic line..Iaddend..Iadd.40. The method of claim 38 wherein the communication link comprises electromagnetic transceivers that transmit the control signals through a window in the shielded room..Iaddend..Iadd.41. A patient infusion system for use with a magnetic resonance imaging system, the patient infusion system comprising:
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a patient infusion apparatus within a room shielded from electromagnetic interference including a viewing window; a system controller external to the shielded room; and a communicating control link between the system controller and the infusion apparatus, the control link comprising means for transmitting and receiving electromagnetic energy through the viewing window..Iaddend..Iadd.42. The system of claim 41 wherein the electromagnetic energy is in the visible light spectrum..Iaddend..Iadd.43. The system of claim 41 wherein the electromagnetic energy is in the infrared spectrum..Iaddend..Iadd.44. The system of claim 41 wherein the electromagnetic energy comprises electromagnetic radiation..Iaddend.
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Specification