Patents by Inventor Jon Bishay
Jon Bishay 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: 11291397Abstract: An ECG monitoring system for ambulatory patients includes a small multi-electrode patch that adhesively attaches to the chest of a patient. A reusable battery-powered ECG monitor clips onto the patch and receives patient electrical signals from the electrodes of the patch. A processor continuously processes received ECG signals and stores the signals in memory in the monitor. The processor also analyzes the received ECG signals for predefined arrhythmia. If an arrhythmia is detected, a wireless transceiver in the ECG monitor transmits the event information and an ECG strip to a cellphone handset. The cellphone handset automatically relays the event information and ECG strip to a monitoring center for further diagnosis and necessary intervention.Type: GrantFiled: October 17, 2019Date of Patent: April 5, 2022Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Thomas Solosko, Stacy Gehman, Earl Herleikson, Thomas Lyster, Shannon Fong, Kim Hansen, Jon Bishay, Chuni Kao, Brett Cross, Krishnakant Nammi, Corinne Mauser
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Publication number: 20200046242Abstract: An ECG monitoring system for ambulatory patients includes a small multi-electrode patch that adhesively attaches to the chest of a patient. A reusable battery-powered ECG monitor clips onto the patch and receives patient electrical signals from the electrodes of the patch. A processor continuously processes received ECG signals and stores the signals in memory in the monitor. The processor also analyzes the received ECG signals for predefined arrhythmia. If an arrhythmia is detected, a wireless transceiver in the ECG monitor transmits the event information and an ECG strip to a cellphone handset. The cellphone handset automatically relays the event information and ECG strip to a monitoring center for further diagnosis and necessary intervention.Type: ApplicationFiled: October 17, 2019Publication date: February 13, 2020Inventors: Thomas SOLOSKO, Stacy GEHMAN, Earl HERLEIKSON, Thomas LYSTER, Shannon FONG, Kim HANSEN, Jon BISHAY, Chuni KAO, Brett CROSS, Krishnakant NAMMI, Corinne MAUSER
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Patent number: 10499825Abstract: An ECG monitoring system for ambulatory patients includes a disposable multi-electrode patch that adhesively attaches to the chest of a patient. A reusable battery-powered ECG monitor clips onto the patch and receives patient electrical signals from the electrodes of the patch. A processor continuously processes received ECG signals and stores the signals in memory in the monitor. The processor also analyzes the received ECG signals for predefined arrhythmia. If an arrhythmia is detected, a bi-directional wireless transceiver in the ECG monitor transmits the event information and an ECG strip to a cellphone handset. The cellphone handset automatically relays the event information and ECG strip to a monitoring center for further diagnosis and necessary intervention.Type: GrantFiled: January 19, 2018Date of Patent: December 10, 2019Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Thomas Solosko, Stacy Gehman, Earl Herleikson, Thomas Lyster, Shannon Fong, Kim Hansen, Jon Bishay, Chuni Kao, Brett Cross, Krishnakant Nammi, Corinne Mauser
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Publication number: 20180153425Abstract: An ECG monitoring system for ambulatory patients includes a disposable multi-electrode patch that adhesively attaches to the chest of a patient. A reusable battery-powered ECG monitor clips onto the patch and receives patient electrical signals from the electrodes of the patch. A processor continuously processes received ECG signals and stores the signals in memory in the monitor. The processor also analyzes the received ECG signals for predefined arrhythmia. If an arrhythmia is detected, a bi-directional wireless transceiver in the ECG monitor transmits the event information and an ECG strip to a cellphone handset. The cellphone handset automatically relays the event information and ECG strip to a monitoring center for further diagnosis and necessary intervention.Type: ApplicationFiled: January 19, 2018Publication date: June 7, 2018Inventors: THOMAS SOLOSKO, STACY GEHMAN, EARL HERLEIKSON, THOMAS LYSTER, SHANNON FONG, KIM HANSEN, JON BISHAY, CHUNI KAO, BRETT CROSS, KRISHNAKANT NAMMI, CORINNE MAUSER
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Patent number: 9986927Abstract: An ECG monitoring system for ambulatory patients includes a disposable multi-electrode patch that adhesively attaches to the chest of a patient. A reusable battery-powered ECG monitor clips onto the patch and receives patient electrical signals from the electrodes of the patch. A processor continuously processes received ECG signals and stores the signals in memory in the monitor. The processor also analyzes the received ECG signals for predefined arrhythmia. If an arrhythmia is detected, a bi-directional wireless transceiver in the ECG monitor transmits the event information and an ECG strip to a cellphone handset. The cellphone handset automatically relays the event information and ECG strip to a monitoring center for further diagnosis and necessary intervention.Type: GrantFiled: February 27, 2017Date of Patent: June 5, 2018Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Thomas Solosko, Stacy Gehman, Earl Herleikson, Thomas Lyster, Shannon Fong, Kim Hansen, Jon Bishay, Chuni Kao, Brett Cross, Krishnakant Nammi, Corinne Mauser
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Publication number: 20170164855Abstract: An ECG monitoring system for ambulatory patients includes a disposable multi-electrode patch that adhesively attaches to the chest of a patient. A reusable battery-powered ECG monitor clips onto the patch and receives patient electrical signals from the electrodes of the patch. A processor continuously processes received ECG signals and stores the signals in memory in the monitor. The processor also analyzes the received ECG signals for predefined arrhythmia. If an arrhythmia is detected, a bi-directional wireless transceiver in the ECG monitor transmits the event information and an ECG strip to a cellphone handset. The cellphone handset automatically relays the event information and ECG strip to a monitoring center for further diagnosis and necessary intervention.Type: ApplicationFiled: February 27, 2017Publication date: June 15, 2017Inventors: THOMAS SOLOSKO, STACY GEHMAN, EARL HERLEIKSON, THOMAS LYSTER, SHANNON FONG, KIM HANSEN, JON BISHAY, CHUNI KAO, BRETT CROSS, KRISHNAKANT NAMMI, CORINNE MAUSER
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Patent number: 9615793Abstract: An ECG monitoring system for ambulatory patients includes a small multi-electrode patch that adhesively attaches to the chest of a patient. A reusable battery-powered ECG monitor clips onto the patch and receives patient electrical signals from the electrodes of the patch. A processor continuously processes received ECG signals and stores the signals in memory in the monitor. The processor also analyzes the received ECG signals for predefined arrhythmia. If an arrhythmia is detected, a wireless transceiver in the ECG monitor transmits the event information and an ECG strip to a cellphone handset. The cellphone handset automatically relays the event information and ECG strip to a monitoring center for further diagnosis and necessary intervention.Type: GrantFiled: March 4, 2009Date of Patent: April 11, 2017Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Thomas Solosko, Stacy Gehman, Earl Herleikson, Thomas Lyster, Shannon Fong, Kim Hansen, Jon Bishay, Chuni Kao, Krishnakant Nammi, Corinne Mauser
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Publication number: 20120101396Abstract: An ECG monitoring system for ambulatory patients includes a small multi-electrode patch that adhesively attaches to the chest of a patient. A reusable battery-powered ECG monitor clips onto the patch and receives patient electrical signals from the electrodes of the patch. A processor continuously processes received ECG signals and stores the signals in memory in the monitor. The processor also analyzes the received ECG signals for predefined arrhythmia. If an arrhythmia is detected, a wireless transceiver in the ECG monitor transmits the event information and an ECG strip to a cellphone handset. The cellphone handset automatically relays the event information and ECG strip to a monitoring center for further diagnosis and necessary intervention.Type: ApplicationFiled: March 4, 2009Publication date: April 26, 2012Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Thomas Solosko, Stacy Gehman, Earl Herleikson, Thomas Lyster, Shannon Fong, Kim Hansen, Jon Bishay, Chuni Kao, Brett Cross, Krishnakant Nammi, Corinne Mauser
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Patent number: 7027864Abstract: A defibrillator having a pair of electrodes for delivering an impedance-compensated defibrillation shock and a method thereof is provided. The defibrillator can be deployed rapidly and effectively with no or minimal clothing and hair removal. To achieve this, one electrode is coupled to a neck region of the patient, whereas the other electrode is coupled to the patient's body. Both attachment areas are easily accessible to the rescuer, thus allowing a minimally trained user to easily deploy the defibrillator to treat the patient. A wide range of energy levels that are safe for the patient can be generated selectively based on the patient impedance. The presence of voids in the electrodes decrease the effective shock impedance of the electrodes, thus allowing the defibrillator to operate at a lower level of energy when delivering the electrical pulse to the victim's heart.Type: GrantFiled: April 17, 2002Date of Patent: April 11, 2006Assignee: Koninklijke Philips Electronics N.V.Inventors: David Snyder, Tom Lyster, Jon Bishay, Gust Bardy, Carl Morgan
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Publication number: 20050096717Abstract: A method and apparatus for supporting couplers for therapy administration and/or monitoring. The apparatus can include a support member configured to rest on a body of a recipient proximate to a coupling area. The support member can include a first coupler location configured to removably carry a first coupler proximate to a first coupling position of the body of the recipient. A second coupler location of the support member is configured to removably carry a second coupler proximate to a second coupling position of the body of the recipient. The first and second coupler locations can be arranged to guide the practitioner to connect the couplers properly to the body. For example, the first coupler location can be positioned closer than the second coupler location to the first coupling position. Accordingly, practitioners can be more likely to connect the first and second couplers to the correct coupling position on the body of the recipient.Type: ApplicationFiled: November 23, 2004Publication date: May 5, 2005Inventors: Jon Bishay, Paul Leonard, Jay Miazga
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Publication number: 20050065558Abstract: In accordance with the present invention, an electrotherapy device (12) includes a controller (44), an energy source (42), at least one electrode (46) for providing electrotherapy to a patient (48), an energy delivery system (49) operable by the controller to deliver an electrical shock from the energy source (42) to the electrode (46), and a removable battery pack (10) that serves as the energy source (42). The removable battery pack (10) includes a housing having a user accessible interior and an exterior configured to be removably insertable into a battery receptacle (20) of the electrotherapy device (12). The battery pack (10) also includes at least one user replaceable, non-rechargable cell (18) located in the interior of the housing. The cell (18) has a positive and negative terminal. A pair of conductive contacts is located in the interior of the housing.Type: ApplicationFiled: July 20, 2004Publication date: March 24, 2005Inventors: Daniel Powers, Anthony Picardo, Jon Bishay
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Publication number: 20030199929Abstract: A defibrillator having a pair of electrodes for delivering an impedance-compensated defibrillation shock and a method thereof is provided. The defibrillator can be deployed rapidly and effectively with no or minimal clothing and hair removal. To achieve this, one electrode is coupled to a neck region of the patient, whereas the other electrode is coupled to the patient's body. Both attachment areas are easily accessible to the rescuer, thus allowing a minimally trained user to easily deploy the defibrillator to treat the patient. A wide range of energy levels that are safe for the patient can be generated selectively based on the patient impedance. The presence of voids in the electrodes decrease the effective shock impedance of the electrodes, thus allowing the defibrillator to operate at a lower level of energy when delivering the electrical pulse to the victim's heart.Type: ApplicationFiled: April 17, 2002Publication date: October 23, 2003Applicant: Koninklijke Philips Electronics N.V.Inventors: David Snyder, Tom Lyster, Jon Bishay, Gust Bardy, Carl Morgan