System and method for communication with an infusion device
First Claim
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1. A liquid infusion system configured to facilitate wireless communication between a liquid infusion apparatus within a magnetic resonance imaging (MRI) scan room and a remote control outside the MRI scan room, the system comprising:
- a liquid conduit;
a pump configured to receive the liquid conduit and to transfer a liquid from a liquid source through the liquid conduit in response to activation of the pump;
a drive motor coupled to the pump to provide mechanical movement to the pump to provide displacement of the liquid from the liquid source through the liquid conduit;
a controller configured to communicate with the drive motor to drive the pump, thereby transferring liquid from the liquid source through the liquid conduit at a controllable volumetric rate; and
a first communication port configured to provide a wireless communication link with a remote control located outside an MRI scan room, wherein the wireless communication link operates within a frequency range that is at least an order of magnitude higher than an operating frequency range of MRI equipment such that the wireless communication link does not interfere with operation of the MRI equipment, wherein the wireless communication link utilizes a selected communication channel from a plurality of configured channels,wherein the pump is configured to operate even if communication with the remote control is interrupted.
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Abstract
It may be desirable to monitor or control a pump remotely. For example, the pump may be positioned near the patient, with remote control or monitoring of the pump occurring in a control room. In one exemplary embodiment, the pump is used in an MRI environment. In another exemplary embodiment, the pump is used in a hyperbaric chamber. The pump may monitor one or more physiological parameters and transmit them to the remote. The pump may also transmit information relating to the pump'"'"'s operation. The pump may send the device and/or physiological data using one or more packets. The packets may consist of low priority sequential packets and high-priority asynchronous packets. The high-priority packets may enable the real-time monitoring of a patient'"'"'s heart beat or other physiological parameter.
146 Citations
20 Claims
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1. A liquid infusion system configured to facilitate wireless communication between a liquid infusion apparatus within a magnetic resonance imaging (MRI) scan room and a remote control outside the MRI scan room, the system comprising:
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a liquid conduit; a pump configured to receive the liquid conduit and to transfer a liquid from a liquid source through the liquid conduit in response to activation of the pump; a drive motor coupled to the pump to provide mechanical movement to the pump to provide displacement of the liquid from the liquid source through the liquid conduit; a controller configured to communicate with the drive motor to drive the pump, thereby transferring liquid from the liquid source through the liquid conduit at a controllable volumetric rate; and a first communication port configured to provide a wireless communication link with a remote control located outside an MRI scan room, wherein the wireless communication link operates within a frequency range that is at least an order of magnitude higher than an operating frequency range of MRI equipment such that the wireless communication link does not interfere with operation of the MRI equipment, wherein the wireless communication link utilizes a selected communication channel from a plurality of configured channels, wherein the pump is configured to operate even if communication with the remote control is interrupted. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A liquid infusion system configured to facilitate wireless communication between at least one liquid infusion pump within a magnetic resonance imaging (MRI) scan room and at least one remote control outside the MRI scan room, the system comprising:
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a first liquid conduit; a first pump configured to receive the first liquid conduit and to transfer a first liquid from a first liquid source through the first liquid conduit in response to activation of the first pump; a first drive motor coupled to provide mechanical movement to the first pump to provide displacement of the first liquid from the first liquid source through the first liquid conduit; a first sensor configured to provide an indication of a volume of the first liquid displaced through the first liquid conduit; a first controller configured to communicate with the first sensor to receive the indication of the volume of the first liquid displaced through the first liquid conduit, the first controller further configured to communicate with the first drive motor to drive the first pump, thereby transferring the first liquid from the first liquid source through the first liquid conduit at a controllable volumetric rate; a second liquid conduit; a second pump configured to receive the second liquid conduit and to transfer a second liquid from a second liquid source through the second liquid conduit in response to activation of the second pump; a second drive motor coupled to provide mechanical movement to the second pump to provide displacement of the second liquid from the second liquid source through the second liquid conduit; a second sensor configured to provide an indication of a volume of the second liquid displaced through the second liquid conduit; a second controller configured to communicate with the second sensor to receive the indication of the volume of the second liquid displaced through the second liquid conduit, the second controller further configured to communicate with the second drive motor to drive the second pump, thereby transferring the second liquid from the second liquid source through the second liquid conduit at a controllable volumetric rate; and a first communication port configured to provide a first wireless communication link with a remote control located outside an MRI scan room; a second communication port in the second pump configured to provide a second wireless communication link with the remote control located outside the MRI scan room, wherein the first wireless communication link and the second wireless communication link operate within a frequency range that is at least an order of magnitude higher than an operating frequency range of MRI equipment such that the first wireless communication link and the second wireless communication link do not interfere with operation of the MRI equipment, wherein a first communication channel to be utilized by the first wireless communication link and a second communication channel to be utilized by the second wireless communication link are selectable from a plurality of configured channels. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
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Specification
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Current AssigneeIradimed Corporation
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Original AssigneeIradimed Corporation
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InventorsSusi, Roger E.
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Primary Examiner(s)Bosworth, Kami A
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Application NumberUS13/955,354Publication NumberTime in Patent Office1,623 DaysField of SearchUS Class CurrentCPC Class CodesA61M 2205/3306 Optical measuring meansA61M 2205/3375 Acoustical, e.g. ultrasonic...A61M 2205/3561 local, e.g. within room or ...A61M 2205/3592 using telemetric means, e.g...A61M 5/14228 with linear peristaltic act...A61M 5/16831 Monitoring, detecting, sign...A61M 5/16854 by monitoring line pressureA61M 5/172 electrical or electronic A6...A61M 5/365 Air detectors A61M5/1684 ta...G16H 20/17 delivered via infusion or i...
