Communication systems for use with magnetic resonance imaging systems
First Claim
1. An injector system for injection of a fluid medium into a patient within an electromagnetic isolation area, the injector system comprising:
- (a) a powered injector positioned within the isolation area;
(b) a first communication unit integral with the powered injector thereby enabling the first communication unit and the powered injector to be moved as a unit;
(c) a system controller positioned outside the isolation area, the system controller comprising an operator interface;
(d) a second communication unit integral with the system controller; and
(e) an intermediate communication unit for ensuring communication between the first and the second communication units and therethrough between the powered injector and the system controller using an authentication technique therewith, the first, the second and the intermediate communication units being adapted to communicate by transmission of radio frequency (RF) energy through the air, the energy being chosen to not create substantial interference with a magnetic resonance imaging scanner.
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Accused Products
Abstract
An injector system for injection of a fluid medium into a patient within an electromagnetic isolation area. The injector system includes a powered injector, a system controller therefor, and a plurality of communication units. The powered injector is positioned within the isolation area. A first communication unit integral with the powered injector enables the first communication unit and the powered injector to be moved as a unit. The system controller is positioned outside the isolation area and has a second communication unit integral therewith. An intermediate communication unit ensures communication between the first and the second communication units and therethrough between the powered injector and the system controller using an authentication technique therewith. The first, second and intermediate communication units are adapted to communicate by transmission of radio frequency (RF) energy. The RF energy is chosen to avoid interfering with the operation of MRI scanners.
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Citations
15 Claims
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1. An injector system for injection of a fluid medium into a patient within an electromagnetic isolation area, the injector system comprising:
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(a) a powered injector positioned within the isolation area; (b) a first communication unit integral with the powered injector thereby enabling the first communication unit and the powered injector to be moved as a unit; (c) a system controller positioned outside the isolation area, the system controller comprising an operator interface; (d) a second communication unit integral with the system controller; and (e) an intermediate communication unit for ensuring communication between the first and the second communication units and therethrough between the powered injector and the system controller using an authentication technique therewith, the first, the second and the intermediate communication units being adapted to communicate by transmission of radio frequency (RF) energy through the air, the energy being chosen to not create substantial interference with a magnetic resonance imaging scanner. - View Dependent Claims (2, 3, 4, 5)
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6. A system for use with an MRI scanner positioned on a first side of an electromagnetic isolation barrier, the system comprising:
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an injector control unit operable to control injection of a fluid medium into a patient, the injector control unit positioned on the first side of the isolation barrier and comprising a first communication unit integral therewith; a system controller positioned on a second side of the isolation barrier, the system controller comprising a second communication unit integral therewith; and an intermediate communication unit for ensuring communication between the first and the second communication units and thus the injector control unit and the system controller using an authentication technique therewith, the first communication unit being adapted to communicate with the second communication unit in a bi-directional manner via the intermediate communication unit by transmission of radio frequency (RF) energy through the air, the energy being chosen to not create substantial interference with a magnetic resonance imaging scanner. - View Dependent Claims (7, 8, 9)
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10. A communication system for use with an MRI imaging system, the communication system comprising:
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a first communication unit positioned on an interior side of the isolation barrier, the first communication unit comprising a first receiver and a first transmitter; a second communication unit positioned on an exterior side of the isolation barrier, the second communication unit comprising a second receiver and a second transmitter; and an intermediate communication unit for relaying communication between the first and the second communication units, the first communication unit being adapted to communicate with the second communication unit in a bidirectional manner via the intermediate communication unit by transmission of radio frequency (RF) energy through the air using an authentication technique therewith, the energy being chosen to not create substantial interference with the MRI imaging system. - View Dependent Claims (11, 12, 13)
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14. A method of controlling an injector within an isolation barrier of a magnetic resonance imaging area, the method comprising:
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transmitting RF signals outside the frequency range of the magnetic resonance imaging scanner from a system control unit positioned outside the isolation barrier to an injector control unit inside the isolation barrier, the system control unit comprising an operator interface; and transmitting RF signals outside the frequency range of the magnetic resonance imaging scanner from the injector control unit to the system control unit; wherein RF signals of at least two different frequencies are transmitted to authenticate data, with each of the RF frequencies being outside the frequency range of the scanner. - View Dependent Claims (15)
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Specification