Powerhead of a power injection system
First Claim
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1. A contrast media injector system, comprising:
- a syringe cradle configured to hold and extend along a majority of a length of a pre-filled syringe;
a syringe detection circuit comprising a plurality of sensors spaced along said syringe cradle and configured to detect spatially and time modulated radiation, the spatial modulation being related to the relative position of a plunger of the pre-filled syringe when installed on said syringe cradle, wherein said syringe detection circuit is configured to automatically determine a filled volume of the pre-filled syringe when installed on said syringe cradle and to automatically input the filled volume to said contrast media injector system for use in a subsequent execution of a protocol; and
a sensor support structure configured to hold said plurality of sensors in a fixed position relative to the pre-filled syringe when installed on said syringe cradle;
wherein said syringe detection circuit is configured such that each of said plurality of sensors transmits a signal prior to execution of the protocol and with a pre-filled syringe being installed on said syringe cradle, wherein only one of said plurality of sensors receives back a reflected signal, and wherein an identification of said only one of said plurality of sensors that receives the reflected signal is used by said syringe detection circuit to identify a predetermined fill volume of the pre-filled syringe to said contrast media injector system and which occurs prior to any advancement of the plunger of the pre-filled syringe pursuant to execution of the protocol.
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Accused Products
Abstract
A contrast media injection system includes detects the absolute position of the syringe ram using a non-contact sensor. A series of magnets and Hall-Effect sensors may be used or an opto-reflective system. Illuminated knobs that are connected to the drive mechanism for the syringe ram rotate with the drive and provide visual feedback on operation through the illumination. Analog Hall-Effect sensors are used to determine the presence or absence of magnets that identify the type of faceplate being used. The faceplates include control electronics, connected to the powerhead through connectors, which may be interchangeably used by the two faceplates. The faceplate electronics include detectors for automatically detecting the capacity of pre-filled syringes. Additional features include using historical data to provide optimum pressure limit values during an injection protocol, a removable memory device for storing and transferring information such as injection protocols and injector statistics, and password protection of such protocols.
22 Citations
14 Claims
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1. A contrast media injector system, comprising:
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a syringe cradle configured to hold and extend along a majority of a length of a pre-filled syringe; a syringe detection circuit comprising a plurality of sensors spaced along said syringe cradle and configured to detect spatially and time modulated radiation, the spatial modulation being related to the relative position of a plunger of the pre-filled syringe when installed on said syringe cradle, wherein said syringe detection circuit is configured to automatically determine a filled volume of the pre-filled syringe when installed on said syringe cradle and to automatically input the filled volume to said contrast media injector system for use in a subsequent execution of a protocol; and a sensor support structure configured to hold said plurality of sensors in a fixed position relative to the pre-filled syringe when installed on said syringe cradle; wherein said syringe detection circuit is configured such that each of said plurality of sensors transmits a signal prior to execution of the protocol and with a pre-filled syringe being installed on said syringe cradle, wherein only one of said plurality of sensors receives back a reflected signal, and wherein an identification of said only one of said plurality of sensors that receives the reflected signal is used by said syringe detection circuit to identify a predetermined fill volume of the pre-filled syringe to said contrast media injector system and which occurs prior to any advancement of the plunger of the pre-filled syringe pursuant to execution of the protocol. - View Dependent Claims (2, 3, 4, 5, 6, 7, 11, 12, 13)
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8. Within a contrast media injector system, a method comprising:
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positioning a first pre-filled syringe on a syringe cradle adjacent to a plurality of sensors incorporated by said syringe cradle, wherein said plurality of sensors comprises first and second sensors, said syringe cradle comprising an arcuate surface that interfaces with and extends along a barrel of the first pre-filled syringe; detecting a position of a plunger of said first pre-filled syringe by said first sensor of said plurality of sensors using spatially and time modulated radiation received by said first sensor, wherein said detecting step in relation to said first pre-filled syringe comprises said first and second sensors sending first and second signals, respectively, to said first pre-filled syringe and only said first sensor receiving a first reflected signal back from said first pre-filled syringe such that there is a lack of communication of said first reflected signal to said second sensor; identifying a first filled volume of said first pre-filled syringe from said detecting step associated with said first pre-filled syringe; automatically inputting said first filled volume to said contrast media injector system; initiating a protocol using said contrast media injector system after said automatically inputting said first filled volume step; removing said first pre-filled syringe from said syringe cradle; positioning a second pre-filled syringe on said syringe cradle adjacent to said plurality of sensors; detecting a position of a plunger of said second pre-filled syringe by said second sensor of said plurality of sensors using spatially and time modulated radiation received by said second sensor, wherein said detecting step in relation to said second pre-filled syringe comprises said first and second sensors sending said first and second signals, respectively, to said second pre-filled syringe and only said second sensor receiving a second reflected signal back from said second pre-filled syringe such that there is a lack of communication of said second reflected signal to said first sensor; identifying a second filled volume of said second pre-filled syringe from said detecting step associated with said second pre-filled syringe; automatically inputting said second filled volume to said contrast media injector system; and initiating a protocol using said contrast media injector system after said automatically inputting said second filled volume step. - View Dependent Claims (9)
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10. A contrast media injector system, comprising:
a syringe detection circuit comprising a plurality of sensors spaced along an axis and coinciding with a number of different initial positions along said axis of a syringe plunger of a pre-filled syringe; said plurality of sensors comprising a first optical sensor, wherein said syringe detection circuit is configured to automatically determine a first filled volume of a first pre-filled syringe when installed at a first location on said contrast media injector system based upon a signal issued by said first optical sensor, reflected by the first pre-filled syringe, and detected by said first optical sensor; and said plurality of sensors comprising a second optical sensor, wherein said syringe detection circuit is configured to automatically determine a second filled volume of a second pre-filled syringe when installed at said first location on said contrast media injector system based upon a signal issued by said second optical sensor, reflected by the second pre-filled syringe, and detected by said second optical sensor, wherein a magnitude of said first and second filled volumes is different; wherein said syringe detection circuit is configured to determine a filled volume of a pre-filled syringe installed on said contrast media injector system, and wherein said filled volume is automatically input to said contrast media injector system for use in a subsequent execution of a protocol by said contrast media injector system. - View Dependent Claims (14)
Specification
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Current AssigneeLiebel-Flarsheim Company (Mallinckrodt plc)
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Original AssigneeMallinckrodt LLC (Mallinckrodt plc)
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InventorsNeer, Charles S., Small, James R.
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Primary Examiner(s)Sirmons, Kevin C
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Assistant Examiner(s)GRAY, PHILLIP A
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Application NumberUS11/073,883Publication NumberTime in Patent Office3,284 DaysField of Search604/131, 604/151, 604/152, 604/154, 604 65- 67, 600/431, 600/432US Class Current604/131CPC Class CodesA61B 6/548 Remote control of the appar...A61M 2205/3306 Optical measuring meansA61M 2205/3317 Electromagnetic, inductive ...A61M 2205/3389 Continuous level detection ...A61M 2205/502 User interfaces, e.g. scree...A61M 2205/52 with memories providing a h...A61M 2205/587 Lighting arrangementsA61M 2205/6054 Magnetic identification sys...A61M 2205/6063 Optical identification systemsA61M 5/007 for contrast mediaA61M 5/14546 Front-loading type injectorsA61M 5/14566 with a replaceable reservoi...A61M 5/16827 controlling delivery of mul...A61M 5/1785 comprising radioactive shie...
