Patents by Inventor Ian Durrant
Ian Durrant has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11992692Abstract: This document describes an automated external defibrillator comprising a control configured to switch between a pediatric operating mode and an adult operating mode, wherein each operating mode comprises a mode-specific energy configuration and a mode-specific user configuration; an indicator configured to provide an indication of the operating mode in use during a resuscitation process; one or more processors configured to switch to the mode-specific energy configuration and the mode-specific user configuration upon a change of operating mode between the pediatric operating mode and the adult operating mode such that the automated external defibrillator delivers a defibrillating shock to a patient based on the mode-specific energy configuration; and an interface of the automated external defibrillator provides resuscitation instructions to a user based on the mode-specific user configuration.Type: GrantFiled: December 14, 2021Date of Patent: May 28, 2024Assignee: ZOLL Medical CorporationInventors: Melissa M. Dascoli, Charles E. Sawyer, Jr., Bill Gastrock, Dustin Boutet, Gary A. Freeman, James Wilson, Brian Stonecipher, Ian Durrant, George Reilly, Mark Bates
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Patent number: 11924282Abstract: A medical device system for use in patient resuscitation and medical device management includes a fleet of medical devices associated with a common administrator and distributed over multiple locations. Each medical device includes a memory, a processor configured to store medical device information including device status information and clinical event information, and a communication component configured to transmit the stored medical device information via a network. The system includes one or more servers communicatively coupled to the fleet of medical devices and one or more user devices located remotely from the servers. The servers include a communication component configured to receive the medical device information from the fleet of medical devices, a memory configured to store the received medical device information, and a processor configured to provide a report comprising the device status information for the fleet of medical devices at a medical device dashboard accessible by the user devices.Type: GrantFiled: January 20, 2023Date of Patent: March 5, 2024Assignee: ZOLL Medical CorporationInventors: Ian Durrant, C. Shane Reid, Andrew D Funk, Patrick Shortall
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Publication number: 20230254378Abstract: A medical device system for use in patient resuscitation and medical device management includes a fleet of medical devices associated with a common administrator and distributed over multiple locations. Each medical device includes a memory, a processor configured to store medical device information including device status information and clinical event information, and a communication component configured to transmit the stored medical device information via a network. The system includes one or more servers communicatively coupled to the fleet of medical devices and one or more user devices located remotely from the servers. The servers include a communication component configured to receive the medical device information from the fleet of medical devices, a memory configured to store the received medical device information, and a processor configured to provide a report comprising the device status information for the fleet of medical devices at a medical device dashboard accessible by the user devices.Type: ApplicationFiled: January 20, 2023Publication date: August 10, 2023Inventors: Ian Durrant, C. Shane Reid, Andrew D Funk, Patrick Shortall
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Publication number: 20230166100Abstract: A system for facilitating resuscitation includes: a first electrode assembly having a therapy side and a first motion sensor; a second electrode assembly having a therapy side and a second motion sensor; processing circuitry operatively connected to and programmed to receive and process signals from the first and second motion sensors to estimate at least one of a chest compression depth and rate during administration of chest compressions and to compare the chest compression depth or rate to a desired range; and an output device for providing instructions to a user to administer chest compressions based on the comparison of the estimated chest compression depth or rate to the desired range. One or both of the electrode assemblies may be constructed so that the conductive therapeutic portion is able to maintain substantial conformance to the anatomy of the patient when coupled thereto.Type: ApplicationFiled: November 29, 2022Publication date: June 1, 2023Inventors: Annemarie Silver, Fred Geheb, Lisa Campana, Paolo Giacometti, Gideon Butler, Gary A. Freeman, Christopher Joseph Desmarais, Ian Durrant
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Patent number: 11541227Abstract: A system for facilitating resuscitation includes: a first electrode assembly having a therapy side and a first motion sensor; a second electrode assembly having a therapy side and a second motion sensor; processing circuitry operatively connected to and programmed to receive and process signals from the first and second motion sensors to estimate at least one of a chest compression depth and rate during administration of chest compressions and to compare the chest compression depth or rate to a desired range; and an output device for providing instructions to a user to administer chest compressions based on the comparison of the estimated chest compression depth or rate to the desired range. One or both of the electrode assemblies may be constructed so that the conductive therapeutic portion is able to maintain substantial conformance to the anatomy of the patient when coupled thereto.Type: GrantFiled: July 22, 2019Date of Patent: January 3, 2023Assignee: ZOLL Medical CorporationInventors: Annemarie Silver, Fred Geheb, Lisa Campana, Paolo Giacometti, Gideon Butler, Gary A. Freeman, Christopher Joseph Desmarais, Ian Durrant
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Patent number: 11484702Abstract: This document describes an electrode assembly for use with a defibrillator, the electrode assembly comprising at least one electrode including a first surface that can be affixed to either of a pediatric patient and an adult patient and a second surface, wherein a majority of the second surface includes pictorial instructions related to use of the electrode assembly; and a chest compression sensor attached to the at least one electrode, wherein the at least one electrode is configured to be used on an adult patient when the electrode assembly is in a first orientation, and wherein the at least one electrode is configured to be used on a pediatric patient when the electrode assembly is in a second orientation.Type: GrantFiled: February 23, 2017Date of Patent: November 1, 2022Assignee: ZOLL Medical CorporationInventors: Melissa M. Dascoli, David N. Craige, III, Gary A. Freeman, Ian Durrant, James Wilson, Brian Stonecipher, George Reilly, Deborah T. Jones
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Patent number: 11298558Abstract: This document describes an automated external defibrillator comprising a control configured to switch between a pediatric operating mode and an adult operating mode, wherein each operating mode comprises a mode-specific energy configuration and a mode-specific user configuration; an indicator configured to provide an indication of the operating mode in use during a resuscitation process; one or more processors configured to switch to the mode-specific energy configuration and the mode-specific user configuration upon a change of operating mode between the pediatric operating mode and the adult operating mode such that the automated external defibrillator delivers a defibrillating shock to a patient based on the mode-specific energy configuration; and an interface of the automated external defibrillator provides resuscitation instructions to a user based on the mode-specific user configuration.Type: GrantFiled: April 4, 2019Date of Patent: April 12, 2022Assignee: ZOLL Medical CorporationInventors: Melissa M. Dascoli, Charles E. Sawyer, Jr., Bill Gastrock, Dustin Boutet, Gary A. Freeman, James Wilson, Brian Stonecipher, Ian Durrant, George Reilly, Mark Bates
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Publication number: 20220105352Abstract: This document describes an automated external defibrillator comprising a control configured to switch between a pediatric operating mode and an adult operating mode, wherein each operating mode comprises a mode-specific energy configuration and a mode-specific user configuration; an indicator configured to provide an indication of the operating mode in use during a resuscitation process; one or more processors configured to switch to the mode-specific energy configuration and the mode-specific user configuration upon a change of operating mode between the pediatric operating mode and the adult operating mode such that the automated external defibrillator delivers a defibrillating shock to a patient based on the mode-specific energy configuration; and an interface of the automated external defibrillator provides resuscitation instructions to a user based on the mode-specific user configuration.Type: ApplicationFiled: December 14, 2021Publication date: April 7, 2022Inventors: Melissa M. Dascoli, Charles E. Sawyer, JR., Bill Gastrock, Dustin Boutet, Gary A. Freeman, James Wilson, Brian Stonecipher, Ian Durrant, George Reilly, Mark Bates
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Patent number: 10924553Abstract: A management server is configured to receive device-readiness information, device performance information, and/or clinical event information from a medical device. The management server facilitates providing a graphical user interface (GUI) that enables a user to view the received information. The management server may also enable configuration updates and software updates to be provided to the medical device from a remote location.Type: GrantFiled: March 29, 2016Date of Patent: February 16, 2021Assignee: ZOLL Medical CorporationInventors: Ian Durrant, C. Shane Reid, Andrew D. Funk, Patrick Shortall
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Publication number: 20190344068Abstract: A system for facilitating resuscitation includes: a first electrode assembly having a therapy side and a first motion sensor; a second electrode assembly having a therapy side and a second motion sensor; processing circuitry operatively connected to and programmed to receive and process signals from the first and second motion sensors to estimate at least one of a chest compression depth and rate during administration of chest compressions and to compare the chest compression depth or rate to a desired range; and an output device for providing instructions to a user to administer chest compressions based on the comparison of the estimated chest compression depth or rate to the desired range. One or both of the electrode assemblies may be constructed so that the conductive therapeutic portion is able to maintain substantial conformance to the anatomy of the patient when coupled thereto.Type: ApplicationFiled: July 22, 2019Publication date: November 14, 2019Inventors: Annemarie Silver, Fred Geheb, Lisa Campana, Paolo Giacometti, Gideon Butler, Gary A. Freeman, Christopher Joseph Desmarais, Ian Durrant
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Patent number: 10406345Abstract: A system for facilitating resuscitation includes: a first electrode assembly having a therapy side and a first motion sensor; a second electrode assembly having a therapy side and a second motion sensor; processing circuitry operatively connected to and programmed to receive and process signals from the first and second motion sensors to estimate at least one of a chest compression depth and rate during administration of chest compressions and to compare the chest compression depth or rate to a desired range; and an output device for providing instructions to a user to administer chest compressions based on the comparison of the estimated chest compression depth or rate to the desired range. One or both of the electrode assemblies may be constructed so that the conductive therapeutic portion is able to maintain substantial conformance to the anatomy of the patient when coupled thereto.Type: GrantFiled: September 30, 2016Date of Patent: September 10, 2019Assignee: ZOLL MEDICAL CORPORATIONInventors: Annemarie Silver, Fred Geheb, Lisa Campana, Paolo Giacometti, Gideon Butler, Gary A. Freeman, Christopher Joseph Desmarais, Ian Durrant
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Publication number: 20190224486Abstract: This document describes an automated external defibrillator comprising a control configured to switch between a pediatric operating mode and an adult operating mode, wherein each operating mode comprises a mode-specific energy configuration and a mode-specific user configuration; an indicator configured to provide an indication of the operating mode in use during a resuscitation process; one or more processors configured to switch to the mode-specific energy configuration and the mode-specific user configuration upon a change of operating mode between the pediatric operating mode and the adult operating mode such that the automated external defibrillator delivers a defibrillating shock to a patient based on the mode-specific energy configuration; and an interface of the automated external defibrillator provides resuscitation instructions to a user based on the mode-specific user configuration.Type: ApplicationFiled: April 4, 2019Publication date: July 25, 2019Inventors: Melissa M. Dascoli, Charles E. Sawyer, JR., Bill Gastrock, Dustin Boutet, Gary A. Freeman, James Wilson, Brian Stonecipher, Ian Durrant, George Reilly, Mark Bates
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Patent number: 10300293Abstract: This document describes an automated external defibrillator comprising a control configured to switch between a pediatric operating mode and an adult operating mode, wherein each operating mode comprises a mode-specific energy configuration and a mode-specific user configuration; an indicator configured to provide an indication of the operating mode in use during a resuscitation process; one or more processors configured to switch to the mode-specific energy configuration and the mode-specific user configuration upon a change of operating mode between the pediatric operating mode and the adult operating mode such that the automated external defibrillator delivers a defibrillating shock to a patient based on the mode-specific energy configuration; and an interface of the automated external defibrillator provides resuscitation instructions to a user based on the mode-specific user configuration.Type: GrantFiled: February 23, 2017Date of Patent: May 28, 2019Assignee: ZOLL Medical CorporationInventors: Melissa M. Dascoli, Charles E. Sawyer, Jr., Bill Gastrock, Dustin Boutet, Gary A. Freeman, James Wilson, Brian Stonecipher, Ian Durrant, George Reilly, Mark Bates
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Patent number: 10295538Abstract: The present invention relates to Mycobacterium tuberculosis (M tuberculosis) proteins and immunologically active fragments (peptides or mimotope peptides) thereof. In particular, the invention relates to a group of M. tuberculosis proteins and peptides thereof that are both highly antigenic and characteristic of clinical strains of M. tuberculosis. Accordingly, the further relates to the use of these M. tuberculosis proteins or peptides in diagnosing, treating or preventing M. tuberculosis complex infection.Type: GrantFiled: August 14, 2015Date of Patent: May 21, 2019Assignee: Oxford Immunotec LimitedInventors: Massimo Amicosante, Ian Durrant, Scott Tasker
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Publication number: 20170259054Abstract: This document describes an electrode assembly for use with a defibrillator, the electrode assembly comprising at least one electrode including a first surface that can be affixed to either of a pediatric patient and an adult patient and a second surface, wherein a majority of the second surface includes pictorial instructions related to use of the electrode assembly; and a chest compression sensor attached to the at least one electrode, wherein the at least one electrode is configured to be used on an adult patient when the electrode assembly is in a first orientation, and wherein the at least one electrode is configured to be used on a pediatric patient when the electrode assembly is in a second orientation.Type: ApplicationFiled: February 23, 2017Publication date: September 14, 2017Inventors: Melissa M. Dascoli, David N. Craige, III, Gary A. Freeman, Ian Durrant, James Wilson, Brian Stonecipher, George Reilly, Deborah T. Jones
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Publication number: 20170252571Abstract: This document describes an automated external defibrillator comprising a control configured to switch between a pediatric operating mode and an adult operating mode, wherein each operating mode comprises a mode-specific energy configuration and a mode-specific user configuration; an indicator configured to provide an indication of the operating mode in use during a resuscitation process; one or more processors configured to switch to the mode-specific energy configuration and the mode-specific user configuration upon a change of operating mode between the pediatric operating mode and the adult operating mode such that the automated external defibrillator delivers a defibrillating shock to a patient based on the mode-specific energy configuration; and an interface of the automated external defibrillator provides resuscitation instructions to a user based on the mode-specific user configuration.Type: ApplicationFiled: February 23, 2017Publication date: September 7, 2017Inventors: Melissa M. Dascoli, Charles E. Sawyer, JR., Bill Gastrock, Dustin Boutet, Gary A. Freeman, James Wilson, Brian Stonecipher, Ian Durrant, George Reilly, Mark Bates
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Publication number: 20170234871Abstract: The present invention relates to Mycobacterium tuberculosis (M tuberculosis) proteins and immunologically active fragments (peptides or mimotope peptides) thereof. In particular, the invention relates to a group of M. tuberculosis proteins and peptides thereof that are both highly antigenic and characteristic of clinical strains of M. tuberculosis. Accordingly, the further relates to the use of these M. tuberculosis proteins or peptides in diagnosing, treating or preventing M. tuberculosis complex infection.Type: ApplicationFiled: August 14, 2015Publication date: August 17, 2017Inventors: Massimo Amicosante, Ian Durrant, Scott Tasker
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Publication number: 20170106183Abstract: A system for facilitating resuscitation includes: a first electrode assembly having a therapy side and a first motion sensor; a second electrode assembly having a therapy side and a second motion sensor; processing circuitry operatively connected to and programmed to receive and process signals from the first and second motion sensors to estimate at least one of a chest compression depth and rate during administration of chest compressions and to compare the chest compression depth or rate to a desired range; and an output device for providing instructions to a user to administer chest compressions based on the comparison of the estimated chest compression depth or rate to the desired range. One or both of the electrode assemblies may be constructed so that the conductive therapeutic portion is able to maintain substantial conformance to the anatomy of the patient when coupled thereto.Type: ApplicationFiled: September 30, 2016Publication date: April 20, 2017Inventors: Annemarie Silver, Fred Geheb, Lisa Campana, Paolo Giacometti, Gideon Butler, Gary A. Freeman, Christopher Joseph Desmarais, Ian Durrant
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Patent number: D783832Type: GrantFiled: February 26, 2016Date of Patent: April 11, 2017Inventors: Melissa M. Dascoli, George Reilly, Ian Durrant, Deborah T. Jones, Mark Bates, David N. Craige, III, Brian Stonecipher, James Wilson
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Patent number: D797574Type: GrantFiled: February 26, 2016Date of Patent: September 19, 2017Inventors: Melissa M. Dascoli, George Reilly, Ian Durrant, Deborah T. Jones, Mark Bates, David N. Craige, III, Dustin Boutet, James Wilson