Allan Inda - Milwaukee WI, US Daniel Nowicki - Cedarburg WI, US Michael Horvath - Port Washington WI, US Patrick Van Ryzin - Pewaukee WI, US
Assignee:
GE Medical Systems Information Technologies, Inc.
International Classification:
G06F015/00
US Classification:
702/188000
Abstract:
An interface device receives data from a plurality of sensors and transmits the data over a communication network to one or more of a plurality of monitors. The interface device is capable of operating in both a peripheral mode of operation and a stand-alone mode of operation for the plurality of monitors. In another embodiment, a monitor is connected to a plurality of interface devices by way of a communication network. A separate visible physical communication link or other identification link is used to visually identify which of the interface devices is serving as a peripheral device for the monitor.
Mobile Hemodynamic And Electrophysiological Interface To Physiological Monitors And Method Of Use
Daniel Joseph Nowicki - Cedarburg WI, US Scott Raymond Kosloske - Slinger WI, US Sachin Vadodaria - Cedar Park TX, US
Assignee:
General Electric Company - Schenectady NY
International Classification:
A61B 5/02 A61B 5/00
US Classification:
600509, 600300
Abstract:
Certain embodiments provide systems and methods for patient monitoring using a mobile workstation and one or more patient monitors. Certain embodiments include selecting a patient monitor via a mobile physiological monitoring workstation; acquiring physiological data from the patient monitor; and displaying the physiological data at the mobile physiological monitoring workstation. The data is transmitted over a network from the patient monitor to the mobile physiological monitoring workstation without a dedicated connection between the mobile physiological monitoring workstation and the patient monitor. Certain embodiments include at least one patient monitor capable of obtaining and transmitting physiological data for a patient; a mobile physiological monitoring workstation receiving physiological data; and a network enabling exchange of physiological data between the at least one patient monitor and the workstation. The workstation may select one or more of the at least one patient monitor from which to receive physiological data for the patient.
Automated Workflow Engine In A Delivery Of Healthcare
Adrian Warner - Wauwatosa WI, US Crispian Sievenpiper - Pewaukee WI, US Claudio Mejia - Wauwatosa WI, US Daniel Nowicki - Wauwatosa WI, US Sundararaj Mani - Waukesha WI, US
Systems and methods for tracking the real-time progress of a medical workflow are provided. In one embodiment, a method includes receiving in a data processing system locations of a plurality of objects from a location system and determining in near real time whether the real-time locations indicate that a predetermined workflow has progressed from a first stage to a second stage using the data processing system.
System And Method For Evaluating Blood Flow In A Vessel
- Wauwatosa WI, US Daniel R. Schneidewend - Menomonee Falls WI, US Daniel J. Nowicki - Cedarburg WI, US Joel Q. Xue - Brown Deer WI, US
International Classification:
A61B 5/0215 A61B 5/026 A61B 5/00
Abstract:
A system and method for evaluating blood flow in a vessel of a patient includes a catheter containing a first pressure sensor and a second pressure sensor and configured to simultaneously measure pressure data within a vessel on either side of a stenosis. Pressure data generated by the catheter includes a first series of pressure measurements from the first pressure sensor a second series of pressure measurements from the second pressure sensor. The system and method further includes a fractional flow reserve (FFR) calculation module executable on one or more processors and configured to calculate a stability index for each of two or more portions of the pressure data, wherein each stability index indicates at least one of heart rate stability and catheter stability for the respective portion of the pressure data. An optimal time window is identified based on the stability indexes for calculation of FFR based on the pressure data. A FFR value is then calculated based on the pressure data in the optimal time window.
System And Method For Evaluating Blood Flow In A Vessel
- Schenectady NY, US Daniel R. Schneidewend - Menomonee Falls WI, US Daniel J. Nowicki - Cedarburg WI, US Joel Q. Xue - Brown Deer WI, US
Assignee:
General Electric Company - Schenectady NY
International Classification:
A61B 5/0215 A61B 5/00 A61B 5/026
Abstract:
A system for evaluating blood flow in a vessel of a patient includes a catheter containing a first pressure sensor and a second pressure sensor and configured to simultaneously measure pressure data within a vessel on either side of a stenosis. Pressure data generated by the catheter includes a first series of pressure measurements from the first pressure sensor a second series of pressure measurements from the second pressure sensor. The system further includes an FFR calculation module executable on one or more processors and configured to calculate a stability index for each of two or more portions of the pressure data, wherein each stability index indicates at least one of heart rate stability and catheter stability for the respective portion of the pressure data. An optimal time window is identified based on the stability indexes for calculation of fractional flow reserve (FFR) based on the pressure data. An FFR value is then calculated based on the pressure data in the optimal time window.
- Schenectady NY, US Daniel Joseph Nowicki - Wauwatosa WI, US Daniel Richard Schneidewend - Wauwatosa WI, US Rodger F. Schmit - Wauwatosa WI, US Timothy P. Stiemke - Wauwatosa WI, US
International Classification:
A61B 5/0408 H01R 13/66 A61B 5/0215
Abstract:
A multi-device connector for ECG signals permits multiple medical devices to share patient-connected surface electrodes, providing a patient-side terminal set having a direct connection to one device-side terminal set and buffered connections to multiple additional device-side terminal sets. Invasive blood-pressure sensor readings may also be shared by providing a direct connection between a patient-side terminal set and multiple device-side terminal sets for blood-pressure signals and a direct connection between the patient-side terminal set and only one device-side terminal set. Indirect, scaled connections between the remaining device-side terminal sets and the patient-side terminal set may be provided.
Name / Title
Company / Classification
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Daniel Nowicki Executive
Ge Medical Systems Information Technologies Concrete Work