Patents Assigned to Medtronic Physio-Control Manufacturing Corp.
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Publication number: 20100121208Abstract: The presence of a cardiac pulse in a patient is determined by evaluating fluctuations in an electrical signal that represents a measurement of the patient's transthoracic impedance. Impedance signal data obtained from the patient is analyzed for a feature indicative of the presence of a cardiac pulse. Whether a cardiac pulse is present in the patient is determined based on the feature in the impedance signal data. Electrocardiogram (ECG) data may also be obtained in time coordination with the impedance signal data. Various applications for the pulse detection of the invention include detection of PEA and prompting PEA-specific therapy, prompting defibrillation therapy and/or CPR, and prompting rescue breathing depending on detection of respiration.Type: ApplicationFiled: January 15, 2010Publication date: May 13, 2010Applicant: Medtronic Physio-Control Manufacturing Corp.Inventors: Ronald E. Stickney, James W. Taylor, Patricia O'Hearn, Cynthia P. Jayne, Paula Lank, David R. Hampton
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Publication number: 20100114219Abstract: The presence of a cardiac pulse in a patient is determined by evaluating fluctuations in an electrical signal that represents a measurement of the patient's transthoracic impedance. Impedance signal data obtained from the patient is analyzed for a feature indicative of the presence of a cardiac pulse. Whether a cardiac pulse is present in the patient is determined based on the feature in the impedance signal data. Electrocardiogram (ECG) data may also be obtained in time coordination with the impedance signal data. Various applications for the pulse detection of the invention include detection of PEA and prompting PEA-specific therapy, prompting defibrillation therapy and/or CPR, and prompting rescue breathing depending on detection of respiration.Type: ApplicationFiled: January 15, 2010Publication date: May 6, 2010Applicant: Medtronic Physio-Control, Manufacturing Corp.Inventors: Ronald E. Stickney, James W. Taylor, Patricia O'Hearn, Cynthia P. Jayne, Paula Lank, David R. Hampton
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Patent number: 7272441Abstract: Methods and apparatus are provided for minimizing the inherent time delays within external defibrillators and allowing operators to administer CPR therapy as close in time as possible to the delivery of a defibrillation shock to a patient. The methods and apparatuses utilize timing schemes for initiation and completion of charging or maintaining the charge of an energy storage device of an external defibrillator for at least a portion of a predetermined CPR therapy delivery time.Type: GrantFiled: November 12, 2003Date of Patent: September 18, 2007Assignee: Medtronic Physio-Control Manufacturing Corp.Inventors: Fred W. Chapman, Robert G. Walker, Joseph L. Sullivan
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Patent number: 7120488Abstract: A therapy-delivering, portable medical device (200) capable of triggering and/or communicating with an alarm system (100), as well as a related system and method therefor. The portable medical device (200) is configured to establish a communication link (107) with an alarm system (100) such as a residential or business alarm, upon the occurrence of a triggering event. Triggering events may be related to the use, operation or deployment of the portable medical device (200) in an emergency situation, or they may be for service, status or maintenance purposes, e.g., to report device failures, system checks, etc. The portable medical device (200) is configured to deliver therapy to a patient, wherein the therapy delivered to the patient may be any or combination of medial therapies, e.g., defibrillation, drugs, etc., for any one or combination of medical applications, such as stroke, cardiac arrest, diabetic shock, etc.Type: GrantFiled: May 7, 2002Date of Patent: October 10, 2006Assignee: MedTronic Physio-Control Manufacturing Corp.Inventors: Richard C. Nova, Shawn R. Bertagnole, William E. Saltzstein, Henry Eide, Tarek Z. El-Abbady
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Patent number: 7096062Abstract: A method and apparatus for performing self-tests on defibrillation and pacing circuits including a patient isolation switch is disclosed. Tests are provided for the defibrillation and pacing circuitry as well as the isolation switch. For testing the defibrillation circuitry, the impedance drive circuits and preamplifier may be utilized such that the energy storage capacitor is not required to be charged and discharged during the test, thus conserving energy. For testing the pacing circuitry and the isolation switch, the defibrillation circuitry is utilized. For certain of the tests, the test stimulus is the output voltage on the energy storage capacitor, while for other tests the test stimulus may be the pace current as indicated by the voltage across the input to the preamplifier. Alternative tests may be performed depending on whether the impedance at the output of the defibrillator is determined to be an open circuit or a short circuit.Type: GrantFiled: May 7, 2002Date of Patent: August 22, 2006Assignee: Medtronic Physio-Control Manufacturing Corp.Inventors: Patrick F. Kelly, Paul S. Tamura, Patricia Ewen, Michelle C. Beyersdorf
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Publication number: 20060030891Abstract: A medical device is configured to support two-way communication to remotely monitor and manage medical device parameter status and software. A two-way communication module is incorporated into the medical device. A remote monitoring service is configured to regularly communicate with the medical device to initiate status assessments of medical device parameters and perform software updates. The medical device then sends a return message to the remote monitoring service using the two-way communication network. The return message can include the requested information, parameter values, or information about the software updates. This system can be advantageously used to efficiently monitor a large number of portable or mobile medical devices in a manner that is transparent to the users of the medical devices.Type: ApplicationFiled: October 11, 2005Publication date: February 9, 2006Applicant: Medtronic Physio-Control Manufacturing Corp.Inventors: William Saltzstein, H. Silver
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Patent number: 6968230Abstract: A circuit for generating both a biphasic defibrillation waveform and an external pacing waveform in an external defibrillator is provided. The output circuit of the device utilizes one or more SCR switches for applying energy to a patient. In one embodiment, the output circuit is in the form of an H-bridge, with three SCR legs and one IGBT leg. A drive circuit for one of the SCR legs is provided such that the SCR may be continuously driven on for either a high energy biphasic defibrillation pulse or a low energy pacing pulse. In one embodiment, the output circuit conducts the pacing waveform through a combination of one upper leg SCR of the H-bridge and a current source. The current source is configured to bypass a lower leg SCR of the H-bridge. The output circuit is capable of conducting pacing currents of as low as 10 mA.Type: GrantFiled: June 26, 2002Date of Patent: November 22, 2005Assignee: Medtronic Physio-Control Manufacturing CorpInventor: Barry F. Waltman
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Patent number: 6965799Abstract: Medical electrode arrangements are provided for electrotherapy and monitoring applications. In one embodiment, each electrode arrangement includes a smaller electrode that is releasably attached to the back of a larger electrode. For adult applications, the larger electrode is applied to the patient. For pediatric applications, the larger electrode is preferably removed, and the smaller electrode is applied to the patient. Face-to-face and back-to-back electrode arrangement configurations are also provided. In a further embodiment, an electrode arrangement is comprised of first and second conductive regions of a common substrate that are separable by a division line in the substrate. For adult applications, stored energy is conducted through both conductive regions. For pediatric applications, the second region of the substrate is removed along the division line. A sensing mechanism is also provided to detect whether the electrode arrangement has been placed in an adult or pediatric configuration.Type: GrantFiled: March 8, 2002Date of Patent: November 15, 2005Assignee: Medtronic Physio-Control Manufacturing Corp.Inventors: Richard C. Nova, Kevin K. Covey, Joseph L. Sullivan
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Patent number: 6965796Abstract: A method and apparatus for performing self-tests on defibrillation and pacing circuits including a patient isolation switch is disclosed. Following a test of the defibrillation and pacing circuitry, the isolation switch is tested by closing certain switches within the defibrillation circuitry so as to create a circuit path, and then opening and closing the isolation switch. Alternative tests may be performed depending on whether the impedance at the output of the defibrillator is determined to be an open circuit or a short circuit. If the output is determined to be an open circuit, then the test monitors the voltage across the output of the defibrillator as indicated by the voltage of a DC offset of a preamplifier coupled to the output of the defibrillator. For the short circuit test, the voltage on the energy storage capacitor is monitored.Type: GrantFiled: March 11, 2002Date of Patent: November 15, 2005Assignee: Medtronic Physio-Control Manufacturing Corp.Inventor: Patrick F. Kelly
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Patent number: 6963773Abstract: An external defibrillator with an output circuit having four legs arrayed in the form of an “H” (an “H-bridge”) is disclosed. The output circuit is designed to be able to conduct a range of defibrillation pulse energies, from below 50 joules to above 200 joules. Each leg of the output circuit contains a solid-state switch. By selectively switching on pairs of switches in the H-bridge, a biphasic defibrillation pulse may be applied to a patient. The switches in three of the legs of the H-bridge output circuit are preferably SCR switches, while the fourth leg includes an IGBT switch. In one embodiment, a single power switch is utilized in each of the legs of the H-bridge output circuit, and are included in a single integrated module or package. The use of single semiconductor switches in an integrated surface mountable module or package simplifies the assembly and manufacturing of the defibrillator device.Type: GrantFiled: June 26, 2002Date of Patent: November 8, 2005Assignee: MedTronic Physio-Control Manufacturing Corp.Inventors: Barry F. Waltman, Joseph L. Sullivan, Lawrence A. Borschowa, Richard C. Nova
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Patent number: 6937150Abstract: The invention provides a wireless automatic location identification (ALI) capable system (10), including a medical device (12) having a wireless data communicator (14), a wireless communication network (16), and a remote locating service (18) for remotely locating and monitoring one or more medical devices over the wireless communication network. When the medical device is linked to the remote locating service over the communication network, the ALI-capable system identifies the location of the medical device and relays the location information to the remote locating service. The system permits reliable determination of the location of the medical device wherever the medical device is situated. The medical device may further be configured to transmit signals indicative of its status, condition, or self-test results, to the remote locating service. This feature allows the remote locating service to centrally monitor the status or condition of a plurality of medical devices.Type: GrantFiled: December 31, 2003Date of Patent: August 30, 2005Assignee: Medtronic Physio-Control Manufacturing Corp.Inventors: Douglas K. Medema, William E. Saltzstein, Robert A. Niskanen, Richard C. Nova
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Patent number: 6920354Abstract: The present invention is directed to a defibrillator having both a manual and an AED mode with corresponding user commands for both modes. The defibrillator includes a door which conceals manual mode commands, such that opening of the door puts the defibrillator in the manual mode and simultaneously reveals the manual mode command buttons. In one actual embodiment, the door includes apertures which allow access to the AED command buttons. When the door is in the open position, a keypad is revealed having manual commands which preferably take the form of buttons. In another actual embodiment, the door includes a switch which senses when the door is opened and sends the defibrillator into manual mode. The door includes a front side having AED command buttons, and a back side having manual mode command buttons. The door conceals a keypad having further manual mode command buttons.Type: GrantFiled: December 2, 2003Date of Patent: July 19, 2005Assignee: Medtronic Physio-Control Manufacturing Corp.Inventors: John C. Daynes, Cathlene D. Buchanan, Douglas J. Hill, Richard M. Lee
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Patent number: 6912425Abstract: Medical electrode arrangements are provided for electrotherapy and monitoring applications. In one embodiment, each electrode arrangement includes a smaller electrode that is releasably attached to the back of a larger electrode. For adult applications, the larger electrode is applied to the patient. For pediatric applications, the larger electrode is preferably removed, and the smaller electrode is applied to the patient. Face-to-face and back-to-back electrode arrangement configurations are also provided. In another embodiment, an electrode arrangement is comprised of first and second conductive regions that are separable from each other. In yet further embodiments, an electrode arrangement is comprised of two or more electrodes that are not physically or electrically connected to each other. At least one electrode from each electrode arrangement is placed on the patient. A sensor is also provided to sense which electrodes in each electrode arrangement have been placed on the patient.Type: GrantFiled: April 26, 2002Date of Patent: June 28, 2005Assignee: Medtronic Physio-Control Manufacturing Corp.Inventors: Richard C. Nova, Kevin K. Covey, Joseph L. Sullivan
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Publication number: 20040210148Abstract: An ECG signal detection device that includes a differential amplifier input circuit and a driven reference electrode lead is disclosed. More specifically, the ECG signal detection device includes a differential amplifier input circuit and three-electrode leads, two of which terminate at a common patient coupling device such as an electrode pad or a defibrillator paddle. The third electrode lead terminates at a second, separate patient coupling device. Two electrical cords that include the electrode leads extend between the patient coupling devices and the differential amplifier input circuit. One electrical cord includes the two-electrode leads that terminate at the common patient coupling device.Type: ApplicationFiled: April 16, 2003Publication date: October 21, 2004Applicant: Medtronic Physio-Control Manufacturing Corp.Inventor: David W. Van Ess
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Publication number: 20040155772Abstract: The invention provides a wireless automatic location identification (ALI) capable system (10), including a medical device (12) having a wireless data communicator (14), a wireless communication network (16), and a remote locating service (18) for remotely locating and monitoring one or more medical devices over the wireless communication network. When the medical device is linked to the remote locating service over the communication network, the ALI-capable system identifies the location of the medical device and relays the location information to the remote locating service. The system permits reliable determination of the location of the medical device wherever the medical device is situated. The medical device may further be configured to transmit signals indicative of its status, condition, or self-test results, to the remote locating service. This feature allows the remote locating service to centrally monitor the status or condition of a plurality of medical devices.Type: ApplicationFiled: December 31, 2003Publication date: August 12, 2004Applicant: Medtronic Physio-Control Manufacturing Corp.Inventors: Douglas K. Medema, William E. Saltzstein, Robert A. Niskanen, Richard C. Nova
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Patent number: 6772006Abstract: In one embodiment, a method is characterized by measuring a patient parameter associated with a human body; in response to the patient parameter, retrieving a maximum expected device parameter; and setting a limit on an energy source such that during defibrillation of the patient a defibrillation parameter associated with the maximum expected device parameter is within a defined tolerance. In another embodiment, a method is characterized by specifying at least one device parameter limit of a defibrillation unit; and in response to the at least one specified device parameter, determining a prediction confidence level at which the device parameter limit is exceeded for one or more values of a patient parameter.Type: GrantFiled: August 6, 2001Date of Patent: August 3, 2004Assignee: Medtronic Physio-Control Manufacturing Corp.Inventors: Daniel W. Piraino, D. Craig Edwards
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Publication number: 20040111122Abstract: The present invention is directed to a defibrillator having both a manual and an AED mode with corresponding user commands for both modes. The defibrillator includes a door which conceals manual mode commands, such that opening of the door puts the defibrillator in the manual mode and simultaneously reveals the manual mode command buttons. In one actual embodiment, the door includes apertures which allow access to the AED command buttons. When the door is in the open position, a keypad is revealed having manual commands which preferably take the form of buttons. In another actual embodiment, the door includes a switch which senses when the door is opened and sends the defibrillator into manual mode. The door includes a front side having AED command buttons, and a back side having manual mode command buttons. The door conceals a keypad having further manual mode command buttons.Type: ApplicationFiled: December 2, 2003Publication date: June 10, 2004Applicant: Medtronic Physio-Control Manufacturing Corp.Inventors: John C. Daynes, Cathlene D. Buchanan, Douglas J. Hill, Richard M. Lee
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Patent number: 6727814Abstract: A system, method and apparatus for obtaining status information from a portable medical device and communicating said status information to a remote system or user. In one embodiment, the system comprises a sensing device that comprises an optical receiver for receiving status information from at least one status indicator of the portable medical device. The optical receiver is positioned in sufficient proximity to the status indicator to allow optical communication between the optical receiver and the status indicator. A circuit couplable to the optical receiver communicates the status information represented by the status indicator to the remote system or user. In another embodiment, the sensing device comprises a microphone to receive audible status signals from the portable medical device. In yet another embodiment, the sensing device is mounted to a housing, which allows sensing device to sense the status information of an enclosed portable medical device.Type: GrantFiled: September 24, 2001Date of Patent: April 27, 2004Assignee: Medtronic Physio-Control Manufacturing Corp.Inventors: William E. Saltzstein, Paul S. Tamura, Richard C. Nova, Shawn R. Bertagnole
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Publication number: 20040068301Abstract: An external defibrillator with an output circuit having four legs arrayed in the form of an “H” (an “H-bridge”) is disclosed. The output circuit is designed to be able to conduct a range of defibrillation pulse energies, from below 50 joules to above 200 joules. Each leg of the output circuit contains a solid-state switch. By selectively switching on pairs of switches in the H-bridge, a biphasic defibrillation pulse may be applied to a patient. The switches in three of the legs of the H-bridge output circuit are preferably SCR switches, while the fourth leg includes an IGBT switch. In one embodiment, a single power switch is utilized in each of the legs of the H-bridge output circuit, and are included in a single integrated module or package. The use of single semiconductor switches in an integrated surface mountable module or package simplifies the assembly and manufacturing of the defibrillator device.Type: ApplicationFiled: June 26, 2002Publication date: April 8, 2004Applicant: Medtronic Physio-Control Manufacturing Corp.Inventors: Barry F. Waltman, Joseph L. Sullivan, Lawrence A. Borschowa, Richard C. Nova
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Patent number: D494681Type: GrantFiled: March 31, 2003Date of Patent: August 17, 2004Assignee: Medtronic Physio-Control Manufacturing Corp.Inventors: Dayna M. Mills, Shawn R. Bertagnole, Steven M. Chester, Richard C. Nova