Distributed medical sensing system and method
First Claim
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1. A distributed medical sensing system comprising:
- a first hub configured to be concurrently communicatively coupled to a first plurality of medical instruments associated with a first sterile field, the first plurality of medical instruments including a first body sensing device and a second body sensing device, the first and second body sensing devices being associated with different medical modalities, the first hub receiving first medical characteristic data from the first body sensing device and receiving second medical characteristic data from the second body sensing device;
a first bedside controller communicatively coupled to the first hub and configured to provide user control of the first and second body sensing devices, the first bedside controller being associated with the first sterile field, wherein the first bedside controller includes a touch screen display configured to provide a first graphical user interface (GUI) corresponding to at least one of the first and second body sensing devices such that a first aspect of a medical workflow associated with the first sterile field is controllable with a user input via the first GUI, and wherein the first GUI is automatically provided in response to at least one of the first and second body sensing devices being communicatively coupled to the first hub;
a first control room controller communicatively coupled to the first hub and disposed outside of the first sterile field, wherein the first control room controller is configured to provide a second GUI such that a second aspect of the medical workflow associated with the first sterile field is controllable with a user input via the second GUI, wherein the first bedside controller and the first control room controller are configured to simultaneously control the first and second aspects of the medical workflow in the first sterile field in response to respective first and second user inputs associated with the first and second aspects of the medical workflow, wherein the first and second aspects of the medical workflow are different and selected from the group consisting of;
data acquisition, border tracing, co-registration, and selecting diagnostic data for display;
a second hub configured to be concurrently communicatively coupled to a second plurality of medical instruments associated with a second sterile field spaced from the first sterile field, the second plurality of medical instruments including a third body sensing device and a fourth body sensing device, the third and fourth body sensing devices being associated with different medical modalities, the second hub receiving third medical characteristic data from the third body sensing device and receiving fourth medical characteristic data from the fourth body sensing device;
a second bedside controller communicatively coupled to the second hub and configured to provide user control of the third and fourth body sensing devices, the second bedside controller being associated with the second sterile field, wherein the second bedside controller includes a touch screen display configured to provide a third graphical user interface (GUI) corresponding to at least one of the third and fourth body sensing devices such that a third aspect of a medical workflow associated with the second sterile field is controllable with a user input via the third GUI, and wherein the third GUI is automatically provided in response to at least one of the third and fourth body sensing devices being communicatively coupled to the second hub;
a second control room controller communicatively coupled to the second hub and disposed outside of the second sterile field, wherein the second control room controller is configured to provide a fourth GUI such that a fourth aspect of a medical workflow associated with the second sterile field is controllable with a user input via the fourth GUI, wherein the second bedside controller and the second control room controller are configured to simultaneously control the third and fourth aspects of the medical workflow in the second sterile field in response to respective third and fourth user inputs associated with the third and fourth aspects of the medical workflow, wherein the third and fourth aspects of the medical workflow are different and selected from the group consisting of;
data acquisition, border tracing, co-registration, and selecting diagnostic data for display;
a computing device outside of the first and second sterile fields and communicatively coupled to the first and second hubs, the computing device configured to;
receive the first and second medical characteristic data from the first hub,receive the third and fourth medical characteristic data from the second hub,process the first and second medical characteristic data to produce first and second diagnostic data,process the third and fourth medical characteristic data to produce third and fourth diagnostic data,transmit the first and second diagnostic data to the first hub for display on the first bedside controller and the first control room controller, andtransmit the third and fourth diagnostic data to the second hub for display on the second bedside controller and the second control room controller;
wherein the first bedside controller is further configured to process at least one of the first and second diagnostic data to generate first modified diagnostic data in response to the first user input associated with the first aspect of the medical workflow in the first sterile field and to display the first modified diagnostic data via the first GUI;
wherein the first control room controller is further configured to process at least one of the first and second diagnostic data to generate second modified diagnostic data in response to the second user input associated with the second aspect of the medical workflow in the first sterile field and to display the second modified diagnostic data via the second GUI;
wherein the second bedside controller is further configured to process at least one of the third and fourth diagnostic data to generate third modified diagnostic data in response to the third user input associated with the third aspect of the medical workflow in the second sterile field and to display the third modified diagnostic data via the third GUI; and
wherein the second control room controller is further configured to process at least one of the third and fourth diagnostic data to generate fourth modified diagnostic data in response to the fourth user input associated with the fourth aspect of the medical workflow in the second sterile field and to display the fourth modified diagnostic data via the fourth GUI.
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Abstract
A distributed medical sensing system including a first hub configured to receive first medical characteristic data from a first body sensing device, the first body sensing device being located in a first sterile field and a second hub configured to receive second medical characteristic data from a second body sensing device, the second body sensing device being located in a second sterile field spaced from the first sterile field. The system also includes a computing device outside of the first and second sterile fields and communicatively coupled to the first and second hubs, the computing device configured to receive the first and second medical characteristic data from the respective first and second hubs, process the first and second medical characteristic data, and transmit the processed first and second medical characteristic data to the respective first and second hubs.
43 Citations
30 Claims
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1. A distributed medical sensing system comprising:
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a first hub configured to be concurrently communicatively coupled to a first plurality of medical instruments associated with a first sterile field, the first plurality of medical instruments including a first body sensing device and a second body sensing device, the first and second body sensing devices being associated with different medical modalities, the first hub receiving first medical characteristic data from the first body sensing device and receiving second medical characteristic data from the second body sensing device; a first bedside controller communicatively coupled to the first hub and configured to provide user control of the first and second body sensing devices, the first bedside controller being associated with the first sterile field, wherein the first bedside controller includes a touch screen display configured to provide a first graphical user interface (GUI) corresponding to at least one of the first and second body sensing devices such that a first aspect of a medical workflow associated with the first sterile field is controllable with a user input via the first GUI, and wherein the first GUI is automatically provided in response to at least one of the first and second body sensing devices being communicatively coupled to the first hub; a first control room controller communicatively coupled to the first hub and disposed outside of the first sterile field, wherein the first control room controller is configured to provide a second GUI such that a second aspect of the medical workflow associated with the first sterile field is controllable with a user input via the second GUI, wherein the first bedside controller and the first control room controller are configured to simultaneously control the first and second aspects of the medical workflow in the first sterile field in response to respective first and second user inputs associated with the first and second aspects of the medical workflow, wherein the first and second aspects of the medical workflow are different and selected from the group consisting of;
data acquisition, border tracing, co-registration, and selecting diagnostic data for display;a second hub configured to be concurrently communicatively coupled to a second plurality of medical instruments associated with a second sterile field spaced from the first sterile field, the second plurality of medical instruments including a third body sensing device and a fourth body sensing device, the third and fourth body sensing devices being associated with different medical modalities, the second hub receiving third medical characteristic data from the third body sensing device and receiving fourth medical characteristic data from the fourth body sensing device; a second bedside controller communicatively coupled to the second hub and configured to provide user control of the third and fourth body sensing devices, the second bedside controller being associated with the second sterile field, wherein the second bedside controller includes a touch screen display configured to provide a third graphical user interface (GUI) corresponding to at least one of the third and fourth body sensing devices such that a third aspect of a medical workflow associated with the second sterile field is controllable with a user input via the third GUI, and wherein the third GUI is automatically provided in response to at least one of the third and fourth body sensing devices being communicatively coupled to the second hub; a second control room controller communicatively coupled to the second hub and disposed outside of the second sterile field, wherein the second control room controller is configured to provide a fourth GUI such that a fourth aspect of a medical workflow associated with the second sterile field is controllable with a user input via the fourth GUI, wherein the second bedside controller and the second control room controller are configured to simultaneously control the third and fourth aspects of the medical workflow in the second sterile field in response to respective third and fourth user inputs associated with the third and fourth aspects of the medical workflow, wherein the third and fourth aspects of the medical workflow are different and selected from the group consisting of;
data acquisition, border tracing, co-registration, and selecting diagnostic data for display;a computing device outside of the first and second sterile fields and communicatively coupled to the first and second hubs, the computing device configured to; receive the first and second medical characteristic data from the first hub, receive the third and fourth medical characteristic data from the second hub, process the first and second medical characteristic data to produce first and second diagnostic data, process the third and fourth medical characteristic data to produce third and fourth diagnostic data, transmit the first and second diagnostic data to the first hub for display on the first bedside controller and the first control room controller, and transmit the third and fourth diagnostic data to the second hub for display on the second bedside controller and the second control room controller; wherein the first bedside controller is further configured to process at least one of the first and second diagnostic data to generate first modified diagnostic data in response to the first user input associated with the first aspect of the medical workflow in the first sterile field and to display the first modified diagnostic data via the first GUI; wherein the first control room controller is further configured to process at least one of the first and second diagnostic data to generate second modified diagnostic data in response to the second user input associated with the second aspect of the medical workflow in the first sterile field and to display the second modified diagnostic data via the second GUI; wherein the second bedside controller is further configured to process at least one of the third and fourth diagnostic data to generate third modified diagnostic data in response to the third user input associated with the third aspect of the medical workflow in the second sterile field and to display the third modified diagnostic data via the third GUI; and wherein the second control room controller is further configured to process at least one of the third and fourth diagnostic data to generate fourth modified diagnostic data in response to the fourth user input associated with the fourth aspect of the medical workflow in the second sterile field and to display the fourth modified diagnostic data via the fourth GUI. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method of using a distributed medical sensing system, comprising:
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coupling a bedside controller and a control room controller to a hub, wherein the bedside controller is disposed within the first sterile field and the control room controller is disposed outside the first sterile field; coupling a first body sensing device to the hub, the first body sensing device including a first sensor disposed thereon; coupling a second body sensing device to the hub, the second body sensing device including a second sensor thereon, the first and second body sensing devices being associated with different intravascular medical modalities, wherein the first bedside controller includes a touch screen display configured to provide a first graphical user interface (GUI) corresponding to at least one of the first and second body sensing devices such that a first aspect of a medical workflow associated with the first sterile field is controllable with a user input via the first GUI, and wherein the first GUI is automatically provided in response at least one of the first and second body sensing devices being coupled to the hub, and wherein the first control room controller is configured to provide a second GUI such that a second aspect of the medical workflow associated with the first sterile field is controllable with a user input via the second GUI, wherein the first bedside controller and the first control room controller are configured to simultaneously control the first and second aspects of the medical workflow in the first sterile field in response to respective first and second user inputs associated with the first and second aspects of the medical workflow, wherein the first and second aspects of the medical workflow are different and selected from the group consisting of;
data acquisition, border tracing, co-registration, and selecting diagnostic data for display;controlling the first sensor of the first body sensing device with the bedside controller to collect first medical characteristic data associated with the patient in the first sterile field; controlling the second sensor of the second body sensing device with the bedside controller to collect second medical characteristic data associated with the patient; transmitting the first and second medical characteristic data to a remote computing device outside of the first sterile field and communicatively coupled to the hub; controlling the computing device to process the first and second medical characteristic data to generate respective first and second diagnostic data, the computing device operable to process third medical characteristic data sent from a second sterile field concurrently with the processing the first and second medical characteristic data, and the second sterile field being spaced from the first sterile field; and receiving, at the bedside controller and the control room controller, the first and second diagnostic data from the remote computing device; controlling the first bedside controller, in response to the first user input associated with the first aspect of the medical workflow in the first sterile field, to process at least one of the first and second diagnostic data to generate first modified diagnostic data and to display the first modified diagnostic data via the first GUI; and controlling the first control room controller, in response to the second user input associated with the second aspect of the medical workflow in the first sterile field, to process at least one of the first and second diagnostic data to generate second modified diagnostic data and to display the second modified diagnostic data via the second GUI. - View Dependent Claims (11, 12, 13)
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14. A distributed medical sensing system comprising:
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a first bedside controller disposed in a first sterile field, wherein the first bedside controller is configured to control a first body sensing device communicatively coupled thereto, wherein the first bedside controller includes a touch screen display configured to provide a first graphical user interface (GUI) corresponding to the first body sensing device such that a first aspect of a medical workflow associated with the first sterile field is controllable with a user input via the first GUI, and wherein the first GUI is automatically provided in response to the first body sensing device being communicatively coupled to the bedside controller; a first control room controller disposed outside of the first sterile field, wherein the first control room controller is configured to provide a second GUI such that a second aspect of the medical workflow associated with the first sterile field is controllable with a user input via the second GUI, wherein the first bedside controller and the first control room controller are configured to simultaneously control the first and second aspects of the medical workflow in the first sterile field in response to respective first and second user inputs associated with the first and second aspects of the medical workflow, wherein the first and second aspects of the medical workflow are different and selected from the group consisting of;
data acquisition, border tracing, co-registration, and selecting diagnostic data for display;a computing device communicatively coupled to the first bedside controller and the first control room controller and disposed remote from the first sterile field, wherein the first bedside controller, the first control room controller, and the computing device include a memory having applications corresponding to different intravascular medical modalities stored thereon, the applications providing medical workflows corresponding to the different intravascular medical modalities, wherein the computing device is configured to; receive first medical characteristic data from the first body sensing device; determine a first application corresponding to the first body sensing device using the received first medical characteristic data; process the first medical characteristic data using the first application to generate first diagnostic data based on the first medical characteristic data; transmit the first diagnostic data to the first bedside controller and the first control room controller for display thereon; wherein the first bedside controller is further configured to process the first diagnostic data to generate first modified diagnostic data in response to the first user input associated with the first aspect of the medical workflow in the first sterile field and to display the first modified diagnostic data via the first GUI; and wherein the first control room controller is further configured to process the first diagnostic data to generate second modified diagnostic data in response to the second user input associated with the second aspect of the medical workflow in the first sterile field and to display the second modified diagnostic data via the second GUI. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30)
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Specification
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Current AssigneeVolcano Corporation (Koninklijke Philips N.V.)
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Original AssigneeVolcano Corporation (Koninklijke Philips N.V.)
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InventorsHuennekens, R. Scott, Sheehan, David M., Spencer, Jason, Kerr, Rex, Clark, Bill, Mansker, Richard E.
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Primary Examiner(s)Cwern, Jonathan
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Application NumberUS13/624,555Publication NumberTime in Patent Office879 DaysField of Search600/407, 382/128, 705/2US Class Current600/407CPC Class CodesA61B 5/0013 Medical image data A61B1/00...A61B 5/002 Monitoring the patient usin...A61B 5/0066 Optical coherence imagingA61B 5/0084 for introduction into the b...A61B 8/12 in body cavities or body tr...A61B 8/54 Control of the diagnostic d...A61B 8/565 involving data transmission...G16H 30/20 for handling medical images...
