Abstract: A method for creating alarm signals based on time-series signal behavior determined from real-time discrete data obtained from a medical device. In one embodiment the method includes identifying patterns in preceding time-series measurement threshold breaches in clinical readings obtained from said medical device when associated with a particular patient, and initiating an alarm signal to a front-line clinician based on the preceding quantity of threshold breaches.

Abstract: A method and system for adjusting the AUC limit threshold to reduce the number of false alarms. In one embodiment the method includes the steps of: defining a AUC limit threshold; defining a saturation limit threshold for a desired oxygen saturation level; periodically measuring a patient's measured oxygen saturation level over time; calculating the difference between the patient's measured oxygen saturation and defined saturation limit threshold; summing the differences between the patient's measured oxygen saturation and defined saturation limit threshold over a time interval wherein the patient's measured oxygen saturation is less than defined saturation limit threshold, wherein the summation defines a measured AUC; comparing the measured AUC over the time interval against the defined AUC limit threshold; determining regions in which the measured AUC exceeds the defined AUC limit threshold; and adjusting the AUC limit threshold.

Abstract: Computer implemented methods and systems operating on real-time data derived from a plurality of data sources for supporting user-definable rules and providing user notifications for providing user notifications and smart alarms. A user-interface configured to dynamically display a parameter and toggle between a tabular display and a graphical display is generated. At least one of a user-defined rule or a threshold value associated with the parameter from a user-interface element is received. A notification is provided to a user when the parameter satisfies the user-defined rule or exceeds the threshold value.

Abstract: A method for creating alarm signals based on time-series signal behavior determined from real-time discrete data obtained from a medical device. In one embodiment the method includes identifying patterns in preceding time-series measurement threshold breaches in clinical readings obtained from said medical device when associated with a particular patient, and initiating an alarm signal to a front-line clinician based on the preceding quantity of threshold breaches.

Abstract: Computer implemented methods and systems operating on real-time data derived from a plurality of data sources for supporting user-definable rules and providing user notifications for providing user notifications and smart alarms. A user-interface configured to dynamically display a parameter and toggle between a tabular display and a graphical display is generated. At least one of a user-defined rule or a threshold value associated with the parameter from a user-interface element is received. A notification is provided to a user when the parameter satisfies the user-defined rule or exceeds the threshold value.

Abstract: A method for creating alarm signals based on time-series signal behavior determined from real-time discrete data obtained from a medical device. In one embodiment the method includes identifying patterns in preceding time-series measurement threshold breaches in clinical readings obtained from said medical device when associated with a particular patient, and initiating an alarm signal to a front-line clinician based on the preceding quantity of threshold breaches.

Abstract: A method for creating alarm signals based on time-series signal behavior determined from real-time discrete data obtained from a medical device. In one embodiment the method includes identifying patterns in preceding time-series measurement threshold breaches in clinical readings obtained from said medical device when associated with a particular patient, and initiating an alarm signal to a front-line clinician based on the preceding quantity of threshold breaches.

Abstract: A method and system for adjusting the AUC limit threshold to reduce the number of false alarms. In one embodiment the method includes the steps of: defining a AUC limit threshold; defining a saturation limit threshold for a desired oxygen saturation level; periodically measuring a patient's measured oxygen saturation level over time; calculating the difference between the patient's measured oxygen saturation and defined saturation limit threshold; summing the differences between the patient's measured oxygen saturation and defined saturation limit threshold over a time interval wherein the patient's measured oxygen saturation is less than defined saturation limit threshold, wherein the summation defines a measured AUC; comparing the measured AUC over the time interval against the defined AUC limit threshold; determining regions in which the measured AUC exceeds the defined AUC limit threshold; and adjusting the AUC limit threshold.

Abstract: Computer implemented methods and systems operating on real-time data derived from a plurality of data sources for supporting user-definable rules and providing user notifications for providing user notifications and smart alarms. A user-interface configured to dynamically display a parameter and toggle between a tabular display and a graphical display is generated. At least one of a user-defined rule or a threshold value associated with the parameter from a user-interface element is received. A notification is provided to a user when the parameter satisfies the user-defined rule or exceeds the threshold value.

Abstract: Computer implemented methods and systems operating on real-time data derived from a plurality of data sources for supporting user-definable rules and providing user notifications for providing user notifications and smart alarms. A user-interface configured to dynamically display a parameter and toggle between a tabular display and a graphical display is generated. At least one of a user-defined rule or a threshold value associated with the parameter from a user-interface element is received. A notification is provided to a user when the parameter satisfies the user-defined rule or exceeds the threshold value.

Abstract: Computer implemented methods and systems operating on real-time data derived from a plurality of data sources for supporting user-definable rules and providing user notifications for providing user notifications and smart alarms. A user-interface configured to dynamically display a parameter and toggle between a tabular display and a graphical display is generated. At least one of a user-defined rule or a threshold value associated with the parameter from a user-interface element is received. A notification is provided to a user when the parameter satisfies the user-defined rule or exceeds the threshold value.

Abstract: A fluid intake and output viewer application and user interface automatically records patient fluid intake and output data to support fluid balance calculations and data display. A patient fluid parameter user interface and processing system includes a context processor for receiving patient identification information from an executable application. An acquisition processor automatically acquires fluid parameters of a particular patient identified by the received patient identification information. A display processor automatically initiates generation of a composite display image including fluid data updated using the automatically acquired fluid parameters to present both graphical and text indication of patient fluid input and output values and rates of patient fluid input and output, together with the patient identification information.

Abstract: A user interface and software system and architecture enables linking medical record information and patient location to a camera associated with that location when a particular patient is selected by a clinician using a health information system. The image of the patient as recorded by an in-room camera is displayed within a picture-in-picture display on a large plasma screen located at a command station, for example. The image may be controlled by a remote camera controller employing a Web-based user interface that allows a user to implement a pan-tilt-zoom (PTZ) camera controller via mouse control, for example. Information relating to patient location is used to remotely control, via Web-based application, the selection of the appropriate camera and the type of display in which to show the image. The user interface associated with this architecture provides an efficient and intuitive means of selecting specific images and specific display styles.

Abstract: A patient parameter acquisition interface system automatically acquires a patient parameter such as height or weight without human transcription error together with patient vital signs and provides the information to a clinical information system and other workflow applications that automatically use patient height (or other parameters) for calculations such as drug dosage. An automatic patient parameter acquisition system supports prescription of medication and includes an interface for automatically acquiring data representative of patient height from a patient height measurement device and an associated patient identifier. A data processor automatically processes the height representative data for storage in a patient record associated with the patient identifier. A storage processor stores the processed height representative data in the patient record associated with the patient identifier for automatic access by an executable application supporting medication prescription using the patient height.

Abstract: A medical information access and processing system includes a plurality of different wireless tag reader devices and a plurality of interfaces for receiving tag information, derived from reading a plurality of corresponding identification tags, from the tag reader devices. At least one repository of map information associates tag information received from the reader devices with reader device specific actions to be performed by a medical information access and processing system. A data processor uses the map information to associate tag information received from a specific reader device via an interface with a corresponding action to be performed by the medical information access and processing system and automatically initiates performance of the corresponding action by the medical information access and processing system.

Abstract: A mobile point-of-care medical station adapted to be employed by patient monitors made by a variety of different manufacturers. A mobile point-of-care medical station includes a patient medical parameter processor and a communication interface. The patient medical parameter processor automatically acquires data, representing medical parameters of a patient, and processes the patient medical parameter data for presentation to a user on a display. The communication interface enables communication with remote systems via a network and communicates patient medical parameter data to a remote system by formatting patient medical parameter data into multiple individual messages. An individual message incorporates a patient identifier and a communication address.

Abstract: An automated system automatically provides a linkage (e.g., using a hyperlink) between an audio recording (specifically, metadata associated with the audio recording) and a patient electronic medical record. A system manages recorded audio information concerning a patient medical condition. An interface receives a signal comprising recorded dictated audio information concerning a patient medical condition and including dictated patient identification information. A voice recognition processor automatically processes the signal by parsing data representing the audio information in the signal and identifying a patient identifier in the parsed data. A database manager compares the identified patient identifier with a plurality of patient identifiers derived from a repository to identify one or more matching patient identifiers associated with records stored in the repository.

Abstract: A system automatically generates interface code and enables interoperability between a plurality of different executable applications. The system includes first and second calling procedures coded in a common predetermined code language for enabling execution of corresponding first and second procedures of respective first and second different executable applications. An interface processor enables execution of the corresponding first and second procedures of respective first and second different executable applications by using the first and second calling procedures and by providing input parameters to the first and second calling procedures and receiving output parameters from the first and second calling procedures respectively.

Abstract: A processing system for patient medical parameters includes a communication interface for acquiring patient parameter data comprising a medically significant signal from a patient monitoring device attached to a patient. A transform processor converts the medically significant signal into a plurality of components using a transform. A filter filters the components to exclude components based on criteria to provide filtered components. An inverse transform processor inverse-transforms the filtered components to provide a representation of the medically significant signal.

Abstract: An information system for managing operation of medical devices in delivering treatment to a patient, comprising: an order processor for processing a physician order for initiating providing a treatment to a patient; a device management processor for receiving data items from the order processor comprising at least one of, (a) a patient identifier and (b) an identifier for identifying the physician order, and for processing and using the data items in managing access to a medical device used for delivering the treatment to the patient; and a communication interface enabling bidirectional communication between the device management processor and the medical device.