Patents by Inventor Phillip Dewey Foshee, JR.
Phillip Dewey Foshee, JR. 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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Publication number: 20180221648Abstract: A supportive clothing article for a wearable cardioverter defibrillator (WCD), including a belt, the belt including a first end with a first portion of a fastener and a second end with a second portion of the fastener, wherein the belt is structured to fasten around the torso of patient below the chest area of the patient, the belt including a first conductive mesh portion adjacent the first end of the belt or the second end of the belt, two straps, a back portion extending from the belt at an intermediary position on the belt to each of the two straps, the back portion including a conductive mesh, a first support receptacle attached to and extending from the belt and attachable to one of the two straps, and a second support receptacle attached to and extending from the belt and attachable to the other of the two straps.Type: ApplicationFiled: February 5, 2018Publication date: August 9, 2018Inventors: Laura Marie Gustavson, Kerstin Dorst, Angela M. Stewart, Pamela Breske, Amanda K. Hall, Garrett McCann Kotlarchik, Dallas Eugene Meeker, Daniel James Finney, Eduard Deml, Robert Reuben Buchanan, David Peter Finch, Phillip Dewey Foshee, JR., Douglas Keith Medema, Kenneth F. Cowan
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Publication number: 20180147414Abstract: In embodiments, a wearable cardiac defibrillator system includes an energy storage module configured to store a charge. Two electrodes can be configured to be applied to respective locations of a patient. One or more reservoirs can store one or more conductive fluids. Respective fluid deploying mechanisms can be configured to cause the fluids to be released from one or more of the reservoirs, which decreases the impedance at the patient location, and decreases discomfort for the patient. In some embodiments an impedance is sensed between the two electrodes, and the stored charge is delivered when the sensed impedance meets a discharge condition. In some embodiments, different fluids are released for different patient treatments. In some embodiments, fluid release is controlled to be in at least two doses, with an intervening pause.Type: ApplicationFiled: January 9, 2018Publication date: May 31, 2018Inventors: Daniel Ralph Piha, Joseph Leo Sullivan, Phillip Dewey Foshee, JR., Daniel Peter Finch, Isabelle Banville, Laura Marie Gustavson, Kenneth Frederick Cowan, Richard C. Nova, Robert Reuben Buchanan, Krystyna Szul, Gregory T. Kavounas
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Publication number: 20180110995Abstract: A wearable cardiac defibrillator (“WCD”) system may include a support structure that a patient can wear, an energy storage module that can store an electrical charge, and a discharge circuit that can discharge the electrical charge through the patient so as to shock him or her, while the patient is wearing the support structure. Embodiments may actively take into account bystanders, both to protect them from an inadvertent shock, and also to enlist their help. In some embodiments the WCD system includes a speaker system that transmits a sound designed to assist a bystander to perform CPR. Optionally CPR chest compressions received by the patient can be further detected, and feedback can be given. In embodiments, a WCD system may include a user interface that can be controlled to output CPR prompts tailored to a skill level of the bystander.Type: ApplicationFiled: December 12, 2017Publication date: April 26, 2018Inventors: Joseph L. Sullivan, David Peter Finch, Phillip Dewey Foshee, JR., Isabelle Banville, Richard C. Nova, Krystyna Szul, Daniel Finney, Laura Marie Gustavson, Gregory T. Kavounas
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Publication number: 20180110994Abstract: A wearable cardiac defibrillator (“WCD”) system may include a support structure that a patient can wear, an energy storage module that can store an electrical charge, and a discharge circuit that can discharge the electrical charge through the patient so as to shock him or her, while the patient is wearing the support structure. Embodiments may actively take into account bystanders, both to protect them from an inadvertent shock, and also to enlist their help. In some embodiments, the WCD system includes a speaker system and a memory. Prompts have been saved in advance in the patient's own voice, and stored in the memory. In case of an emergency, the prompts may be played by the speaker system in the patient's own voice, and heard by a bystander.Type: ApplicationFiled: December 12, 2017Publication date: April 26, 2018Inventors: Joseph L. Sullivan, David Peter Finch, Phillip Dewey Foshee, JR., Isabelle Banville, Richard C. Nova, Krystyna Szul, Daniel Finney, Laura Marie Gustavson, Gregory T. Kavounas
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Patent number: 9950184Abstract: A wearable cardiac defibrillator (“WCD”) system may include a support structure that a patient can wear, an energy storage module that can store an electrical charge, and a discharge circuit that can discharge the electrical charge through the patient so as to shock him or her, while the patient is wearing the support structure. Embodiments may actively take into account bystanders, both to protect them from an inadvertent shock, and also to enlist their help. In some embodiments, the WCD system includes a speaker system, a memory and a proximity detector. Prompts have been stored in the memory. In case of an emergency, upon inferring that no bystander is nearby, the speaker system may transmit a sound at a higher intensity than otherwise, hoping to attract attention.Type: GrantFiled: November 28, 2016Date of Patent: April 24, 2018Assignee: WEST AFFUM HOLDINGS CORP.Inventors: Joseph L. Sullivan, David Peter Finch, Phillip Dewey Foshee, Jr., Isabelle Banville, Richard C. Nova, Krystyna Szul, Daniel Finney, Laura Marie Gustavson, Gregory T. Kavounas
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Patent number: 9895548Abstract: In embodiments, a wearable cardiac defibrillator system includes an energy storage module configured to store a charge. Two electrodes can be configured to be applied to respective locations of a patient. One or more reservoirs can store one or more conductive fluids. Respective fluid deploying mechanisms can be configured to cause the fluids to be released from one or more of the reservoirs, which decreases the impedance at the patient location, and decreases discomfort for the patient. In some embodiments an impedance is sensed between the two electrodes, and the stored charge is delivered when the sensed impedance meets a discharge condition. In some embodiments, different fluids are released for different patient treatments. In some embodiments, fluid release is controlled to be in at least two doses, with an intervening pause.Type: GrantFiled: June 6, 2017Date of Patent: February 20, 2018Inventors: Daniel Ralph Piha, Joseph Leo Sullivan, Phillip Dewey Foshee, Jr., Daniel Peter Finch, Isabelle Banville, Laura Marie Gustavson, Kenneth Frederick Cowan, Richard C. Nova, Robert Reuben Buchanan, Krystyna Szul, Gregory T. Kavounas
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Wearable cardiac defibrillator system delivering shock upon hearing preset ready word from bystander
Patent number: 9878173Abstract: A wearable cardiac defibrillator (“WCD”) system may include a support structure that a patient can wear, an energy storage module that can store an electrical charge, and a discharge circuit that can discharge the electrical charge through the patient so as to shock him or her, while the patient is wearing the support structure. Embodiments may actively take into account bystanders, both to protect them from an inadvertent shock, and also to enlist their help. In some embodiments the WCD system includes a microphone. The WCD system might be ready to deliver a shock, but may first wait before doing so until it hears from a bystander a preset ready word, such as: “CLEAR”.Type: GrantFiled: November 29, 2016Date of Patent: January 30, 2018Assignee: WEST AFFUM HOLDINGS CORP.Inventors: Joseph L. Sullivan, David Peter Finch, Phillip Dewey Foshee, Jr., Isabelle Banville, Richard C. Nova, Krystyna Szul, Daniel Finney, Laura Marie Gustavson, Gregory T. Kavounas -
Publication number: 20180001083Abstract: A Wearable Cardiac Defibrillator (WCD) system is configured to be worn by a patient who carries a mobile communication device. The mobile communication device has a user interface that is configured to enable the patient to enter wireless inputs. The WCD system includes a communication module that is configured to establish a local comlink with the mobile communication device. The WCD system also includes a tethered action unit that has a user interface configured to enable the patient to enter action inputs. The WCD system can perform some of its functions in response to the action inputs or to the wireless inputs. Since the wireless inputs can be provided from the mobile communication device instead of the action unit, the patient is less likely to attract attention when entering them, and thus exhibit better compliance.Type: ApplicationFiled: April 10, 2015Publication date: January 4, 2018Inventors: David Peter Finch, Phillip Dewey Foshee, JR., Erick Michael Roane, Laura Marie Gustavson, Kenneth F. Cowan, Robert Reuben Buchanan, Daniel James Finney, Jason W. Fouts, Gregory T. Kavounas
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Publication number: 20170266456Abstract: In embodiments, a wearable cardiac defibrillator system includes an energy storage module configured to store a charge. Two electrodes can be configured to be applied to respective locations of a patient. One or more reservoirs can store one or more conductive fluids. Respective fluid deploying mechanisms can be configured to cause the fluids to be released from one or more of the reservoirs, which decreases the impedance at the patient location, and decreases discomfort for the patient. In some embodiments an impedance is sensed between the two electrodes, and the stored charge is delivered when the sensed impedance meets a discharge condition. In some embodiments, different fluids are released for different patient treatments. In some embodiments, fluid release is controlled to be in at least two doses, with an intervening pause.Type: ApplicationFiled: June 6, 2017Publication date: September 21, 2017Inventors: Daniel Ralph Piha, Joseph Leo Sullivan, Phillip Dewey Foshee, JR., Daniel Peter Finch, Isabelle Banville, Laura Marie Gustavson, Kenneth Frederick Cowan, Richard C. Nova, Robert Reuben Buchanan, Krystyna Szul, Gregory T. Kavounas
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Patent number: 9700733Abstract: In embodiments, a wearable cardiac defibrillator system includes an energy storage module configured to store a charge. Two electrodes can be configured to be applied to respective locations of a patient. One or more reservoirs can store one or more conductive fluids. Respective fluid deploying mechanisms can be configured to cause the fluids to be released from one or more of the reservoirs, which decreases the impedance at the patient location, and decreases discomfort for the patient. In some embodiments an impedance is sensed between the two electrodes, and the stored charge is delivered when the sensed impedance meets a discharge condition. In some embodiments, different fluids are released for different patient treatments. In some embodiments, fluid release is controlled to be in at least two doses, with an intervening pause.Type: GrantFiled: December 19, 2016Date of Patent: July 11, 2017Assignee: WEST AFFUM HOLDINGS CORP.Inventors: Daniel Ralph Piha, Joseph Leo Sullivan, Phillip Dewey Foshee, Jr., Daniel Peter Finch, Isabelle Banville, Laura Marie Gustavson, Kenneth Frederick Cowan, Richard C. Nova, Robert Reuben Buchanan, Krystyna Szul, Gregory T. Kavounas
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Patent number: 9700225Abstract: A Wearable Medical System includes a support structure that is configured to be worn by a person. The WMS also includes an electronics module, a cable assembly, and at least one electrode that can be configured to be coupled to the support structure. The cable assembly includes a base member and a cable coupled to the base member. The support structure can be dimensioned relative to the person's body to be worn with tension, and be resiliently stretched under the tension. The stretching of the support structure can stretch the base member of the cable assembly, thus increasing the effective length of the cable, while reducing or even eliminating slack in the cable.Type: GrantFiled: June 24, 2016Date of Patent: July 11, 2017Assignee: WEST AFFUM HOLDINGS CORP.Inventors: Robert Reuben Buchanan, David Peter Finch, Dallas Eugene Meeker, Laura Marie Gustavson, Daniel James Finney, Phillip Dewey Foshee, Jr., Douglas Keith Medema, Kenneth F. Cowan, Karen Elizabeth McEwen, Gregory T. Kavounas
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Publication number: 20170182329Abstract: A wearable cardiac defibrillator (“WCD”) system may include a support structure that a patient can wear, an energy storage module that can store an electrical charge, and a discharge circuit that can discharge the electrical charge through the patient so as to shock him or her, while the patient is wearing the support structure. Embodiments may actively take into account bystanders, both to protect them from an inadvertent shock, and also to enlist their help. In some embodiments, the WCD system includes a speaker system, a memory and a proximity detector. Prompts have been stored in the memory. In case of an emergency, upon inferring that no bystander is nearby, the speaker system may transmit a sound at a higher intensity than otherwise, hoping to attract attention.Type: ApplicationFiled: November 28, 2016Publication date: June 29, 2017Inventors: Joseph L.. Sullivan, David Peter Finch, Phillip Dewey Foshee, JR., Isabelle Banville, Richard C. Nova, Krystyna Szul, Daniel Finney, Laura Marie Gustavson, Gregory T. Kavounas
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Publication number: 20170106198Abstract: In embodiments, a wearable cardiac defibrillator system includes an energy storage module configured to store a charge. Two electrodes can be configured to be applied to respective locations of a patient. One or more reservoirs can store one or more conductive fluids. Respective fluid deploying mechanisms can be configured to cause the fluids to be released from one or more of the reservoirs, which decreases the impedance at the patient location, and decreases discomfort for the patient. In some embodiments an impedance is sensed between the two electrodes, and the stored charge is delivered when the sensed impedance meets a discharge condition. In some embodiments, different fluids are released for different patient treatments. In some embodiments, fluid release is controlled to be in at least two doses, with an intervening pause.Type: ApplicationFiled: December 19, 2016Publication date: April 20, 2017Inventors: Daniel Ralph Piha, Joseph Leo Sullivan, Phillip Dewey Foshee, JR., Daniel Peter Finch, Isabelle Banville, Laura Marie Gustavson, Kenneth Frederick Cowan, Richard C. Nova, Robert Reuben Buchanan, Krystyna Szul, Gregory T. Kavounas
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WEARABLE CARDIAC DEFIBRILLATOR SYSTEM DELIVERING SHOCK UPON HEARING PRESET READY WORD FROM BYSTANDER
Publication number: 20170072208Abstract: A wearable cardiac defibrillator (“WCD”) system may include a support structure that a patient can wear, an energy storage module that can store an electrical charge, and a discharge circuit that can discharge the electrical charge through the patient so as to shock him or her, while the patient is wearing the support structure. Embodiments may actively take into account bystanders, both to protect them from an inadvertent shock, and also to enlist their help. In some embodiments the WCD system includes a microphone. The WCD system might be ready to deliver a shock, but may first wait before doing so until it hears from a bystander a preset ready word, such as: “CLEAR”.Type: ApplicationFiled: November 29, 2016Publication date: March 16, 2017Inventors: Joseph L. Sullivan, David Peter Finch, Phillip Dewey Foshee, JR., Isabelle Banville, Richard C. Nova, Krystyna Szul, Daniel Finney, Laura Marie Gustavson, Gregory T. Kavounas -
Patent number: 9539436Abstract: A wearable cardiac defibrillator (“WCD”) system may include a support structure that a patient can wear, an energy storage module that can store an electrical charge, and a discharge circuit that can discharge the electrical charge through the patient so as to shock him or her, while the patient is wearing the support structure. Embodiments may actively take into account bystanders, both to protect them from an inadvertent shock, and also to enlist their help. In some embodiments the WCD system includes a microphone that can sense when a bystander speaks a preset delaying word like “WAIT” or “NO”, and prevent the discharge.Type: GrantFiled: April 13, 2016Date of Patent: January 10, 2017Assignee: WEST AFFUM HOLDINGS CORP.Inventors: Joseph L. Sullivan, David Peter Finch, Phillip Dewey Foshee, Jr., Isabelle Banville, Richard C. Nova, Krystyna Szul, Daniel Finney, Laura Marie Gustavson, Gregory T. Kavounas
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Patent number: 9539437Abstract: A wearable cardiac defibrillator (“WCD”) system may include a support structure that a patient can wear, an energy storage module that can store an electrical charge, and a discharge circuit that can discharge the electrical charge through the patient so as to shock him or her, while the patient is wearing the support structure. Embodiments may actively take into account bystanders, both to protect them from an inadvertent shock, and also to enlist their help. In some embodiments, the WCD system may detect whether it is being touched by a bystander and, if so, prevent the discharge.Type: GrantFiled: April 27, 2016Date of Patent: January 10, 2017Assignee: WEST AFFUM HOLDINGS CORP.Inventors: Joseph L. Sullivan, David Peter Finch, Phillip Dewey Foshee, Jr., Isabelle Banville, Richard C. Nova, Krystyna Szul, Daniel Finney, Laura Marie Gustavson, Gregory T. Kavounas
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Publication number: 20160302685Abstract: A Wearable Medical System includes a support structure that is configured to be worn by a person. The WMS also includes an electronics module, a cable assembly, and at least one electrode that can be configured to be coupled to the support structure. The cable assembly includes a base member and a cable coupled to the base member. The support structure can be dimensioned relative to the person's body to be worn with tension, and be resiliently stretched under the tension. The stretching of the support structure can stretch the base member of the cable assembly, thus increasing the effective length of the cable, while reducing or even eliminating slack in the cable.Type: ApplicationFiled: June 24, 2016Publication date: October 20, 2016Inventors: Robert Reuben Buchanan, David Peter Finch, Dallas Eugene Meeker, Laura Marie Gustavson, Daniel James Finney, Phillip Dewey Foshee, JR., Douglas Keith Medema, Kenneth F. Cowan, Karen Elizabeth McEwen, Gregory T. Kavounas
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Publication number: 20160296114Abstract: A Wearable Cardiac Defibrillator (WCD) system is configured to be worn by a patient who carries a mobile communication device. The mobile communication device has a user interface that is configured to enable the patient to enter wireless inputs. The WCD system includes a communication module that is configured to establish a local comlink with the mobile communication device. The WCD system also includes a tethered action unit that has a user interface configured to enable the patient to enter action inputs. The WCD system can perform some of its functions in response to the action inputs or to the wireless inputs. Since the wireless inputs can be provided from the mobile communication device instead of the action unit, the patient is less likely to attract attention when entering them, and thus exhibit better compliance.Type: ApplicationFiled: April 10, 2015Publication date: October 13, 2016Inventors: David Peter Finch, Phillip Dewey Foshee, JR., Erick Michael Roane, Laura Marie Gustavson, Kenneth F. Cowan, Robert Reuben Buchanan, Daniel James Finney, Jason W. Fouts, Gregory T. Kavounas
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Publication number: 20160256699Abstract: A wearable cardiac defibrillator (“WCD”) system may include a support structure that a patient can wear, an energy storage module that can store an electrical charge, and a discharge circuit that can discharge the electrical charge through the patient so as to shock him or her, while the patient is wearing the support structure. Embodiments may actively take into account bystanders, both to protect them from an inadvertent shock, and also to enlist their help. In some embodiments the WCD system includes a microphone that can sense when a bystander speaks a preset delaying word like “WAIT” or “NO”, and prevent the discharge.Type: ApplicationFiled: April 13, 2016Publication date: September 8, 2016Inventors: Joseph L. Sullivan, David Peter Finch, Phillip Dewey Foshee, JR., Isabelle Banville, Richard C. Nova, Krystyna Szul, Daniel Finney, Laura Marie Gustavson, Gregory T. Kavounas
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Publication number: 20160243371Abstract: A wearable cardiac defibrillator (“WCD”) system may include a support structure that a patient can wear, an energy storage module that can store an electrical charge, and a discharge circuit that can discharge the electrical charge through the patient so as to shock him or her, while the patient is wearing the support structure. Embodiments may actively take into account bystanders, both to protect them from an inadvertent shock, and also to enlist their help. In some embodiments, the WCD system may detect whether it is being touched by a bystander and, if so, prevent the discharge.Type: ApplicationFiled: April 27, 2016Publication date: August 25, 2016Inventors: Joseph L.. Sullivan, David Peter Finch, Phillip Dewey Foshee, JR., Isabelle Banville, Richard C. Nova, Krystyna Szul, Daniel Finney, Laura Marie Gustavson, Gregory T. Kavounas