Patents by Inventor Travis Michael Beckerle
Travis Michael Beckerle 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: 10758352Abstract: A delivery device for a collapsible prosthetic heart valve, the delivery device comprising an inner shaft, a distal sheath disposed about a portion of the inner shaft and forming a compartment with the inner shaft, the compartment adapted to receive the valve, the inner shaft and the distal sheath being slidable relative to one another, and a handle including a frame, a deployment actuator, a lever, and a hub, each of the deployment actuator, the lever, and the hub being independently capable of opening and closing the compartment, a resheathing lock configured to alert a user of a position of the distal sheath relative to the inner shaft and to impede movement of the distal sheath relative to the frame, and an indicator disposed on the frame and capable of showing an extent of deployment of the valve.Type: GrantFiled: November 30, 2017Date of Patent: September 1, 2020Assignee: St. Jude Medical, Cardiology Division, Inc.Inventors: Christopher Allen Wilson, David John Copeland, Bruce Edward Frohman, Travis Michael Beckerle, Joseph Gordon, Savannah Grace Kyle, Michael Shane Morrissey
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Publication number: 20200269057Abstract: Cochlear implant systems can include a near field communication device for communicating via a first wireless communication protocol and a wireless communication device for communicating via a second wireless communication protocol. An external device including an external near field communication device and an external wireless communication device can communicate with the implanted system via the first wireless communication protocol. Communication via the first wireless communication protocol can be used to enable communication between the implant system and the external device via the second wireless communication protocol. External devices can provide audio and/or data to the implant system via the second wireless communication protocol. External devices can include one or more sensors, and data from the sensors can be used to update a system transfer function based on the environment and/or location of the external device.Type: ApplicationFiled: February 21, 2020Publication date: August 27, 2020Inventors: Paul R. Mazanec, Benjamin R. Whittington, Timothy J. Earnest, Travis Michael Beckerle, Joshua J. Wibben
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Publication number: 20200269047Abstract: Systems can include a fully-implantable cochlear implant system having an input source, a signal processor, and an implantable battery and/or communication module. The system can include an externa hub having a speaker and a wireless communication interface. The external hub can be in wireless communication with the implantable battery and/or communication module. The external hub can be configured to output a predetermined acoustic signal via the speaker and communicate information to the implantable battery and/or communication module regarding the predetermined acoustic signal. The implantable battery and/or communication module can be configured to analyze information regarding the acoustic signal output from the external hub and information from the signal processor regarding the response of the cochlear implant system to the acoustic signal. Such analysis can be used to calibrate the cochlear implant system and detect stapedial reflexes in a wearer.Type: ApplicationFiled: February 21, 2020Publication date: August 27, 2020Inventors: Paul R. Mazanec, Benjamin R. Whittington, Timothy J. Earnest, Travis Michael Beckerle, Joshua J. Wibben
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Publication number: 20200269035Abstract: Cochlear implant systems can include a cochlear electrode, a stimulator in electrical communication with the cochlear electrode, a sensor configured to receive a stimulus signal and generate an input signal based on the received stimulus signal, and a signal processor in communication with the stimulator and the sensor. The signal processor can include an analog filtering stage configured to generate an analog filtered signal from a received input signal and a digital filtering stage configured to generate a digitally filtered signal from the analog filtered signal. The analog filtering stage and digital filtering stage can be used to normalize the frequency response of the digitally filtered signal with respect to the stimulus signal.Type: ApplicationFiled: February 21, 2020Publication date: August 27, 2020Inventors: Paul R. Mazanec, Benjamin R. Whittington, Timothy J. Earnest, Travis Michael Beckerle, Joshua J. Wibben
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Publication number: 20200269034Abstract: Cochlear implant systems can include a cochlear electrode, a stimulator in electrical communication with the cochlear electrode, a sensor configured to receive a stimulus signal and generate an input signal based on the received stimulus signal, and a signal processor in communication with the stimulator and the sensor. In some examples, the stimulator and the signal processor are integrated into a single hermetically sealed housing. The housing can include a return electrode that extends from a first side of the housing to a second side of the housing opposite the first.Type: ApplicationFiled: February 21, 2020Publication date: August 27, 2020Inventors: Paul R. Mazanec, Benjamin R. Whittington, Timothy J. Earnest, Travis Michael Beckerle, Joshua J. Wibben
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Publication number: 20200269048Abstract: Cochlear implant systems can include first and second subsystems, each subsystem including an input source, a signal processor, a stimulator, and a cochlear electrode. A single implantable battery and/or communication module can provide power to and communicate with each subsystem, such as via each signal processor. Systems can include separate leads providing separate communication between the implantable battery and/or communication module and each subsystem, or can include a bifurcated lead providing signals to both subsystems simultaneously. The implantable battery and/or communication module can be configured to output addressed signals designating for which subsystem a signal is intended. The implantable battery and/or communication module can be configured to separately update settings associated with each respective subsystem, such as a transfer function associated with each signal processor.Type: ApplicationFiled: February 21, 2020Publication date: August 27, 2020Inventors: Paul R. Mazanec, Benjamin R. Whittington, Timothy J. Earnest, Travis Michael Beckerle, Joshua J. Wibben
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Publication number: 20200269058Abstract: Cochlear implant systems can include a signal processor, an implantable battery and/or communication module, and a plurality of conductors coupling the implantable battery and/or communication module and the signal processor. The implantable battery and/or communication module can communicate data and deliver electrical power to the signal processor via the plurality of conductors. The implantable battery and/or communication module can be configured to perform characterization process to determine one or more characteristics of one or more such conductors. Characterization processes can include determining an impedance between two conductors as a function of frequency, determining whether a conductor is intact, and determining an impedance of a given conductor. Some characterization processes include grounding one or more conductors.Type: ApplicationFiled: February 21, 2020Publication date: August 27, 2020Inventors: Paul R. Mazanec, Benjamin R. Whittington, Timothy J. Earnest, Travis Michael Beckerle, Joshua J. Wibben
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Patent number: 10631986Abstract: A delivery device for a collapsible prosthetic heart valve, the delivery device including an inner shaft, a distal sheath disposed about a portion of the inner shaft and forming a compartment with the inner shaft, the compartment adapted to receive the valve, the inner shaft and the distal sheath being movable relative to one another, and a handle including a frame having a longitudinal axis, a proximal end and a distal end, the handle including a deployment actuator and a hub, the deployment actuator and the hub being independently capable of opening and closing the compartment, a resheathing lock configured to alert a user of a position of the distal sheath and to impede movement of the distal sheath, and an indicator disposed on the frame and capable of showing an extent of deployment of the valve.Type: GrantFiled: November 30, 2017Date of Patent: April 28, 2020Assignee: St. Jude Medical, Cardiology Division, Inc.Inventors: David John Copeland, Travis Michael Beckerle, Joseph Gordon, Bruce Edward Frohman, Michael William Metz, Savannah Grace Kyle, Kelsey Hill, Michael Shane Morrissey
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Patent number: 10569079Abstract: Fully implantable cochlear implant systems can include a cochlear electrode, a stimulator in electrical communication with the cochlear electrode, a signal processor in communication with the stimulator, and an implantable battery and/or communication module in communication with the signal processor. A cochlear implant network can include an external device in wireless communication with the fully implantable cochlear implant system via one or more system components, such as the implantable battery and/or communication module, the stimulator, and/or the signal processor. The external device can be configured to wirelessly communicate signals to the fully implantable cochlear implant system such as control signals and/or audio signals. Networks can include a plurality of external devices capable of interfacing with one or more implantable components of a fully implantable cochlear implant system.Type: GrantFiled: August 17, 2017Date of Patent: February 25, 2020Assignee: Envoy Medical CorporationInventors: Paul R. Mazanec, Benjamin R. Whittington, Timothy J. Earnest, Travis Michael Beckerle
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Publication number: 20180153693Abstract: A delivery device for a collapsible prosthetic heart valve, the delivery device including an inner shaft, a distal sheath disposed about a portion of the inner shaft and forming a compartment with the inner shaft, the compartment adapted to receive the valve, the inner shaft and the distal sheath being movable relative to one another, and a handle including a frame having a longitudinal axis, a proximal end and a distal end, the handle including a deployment actuator and a hub, the deployment actuator and the hub being independently capable of opening and closing the compartment, a resheathing lock configured to alert a user of a position of the distal sheath and to impede movement of the distal sheath, and an indicator disposed on the frame and capable of showing an extent of deployment of the valve.Type: ApplicationFiled: November 30, 2017Publication date: June 7, 2018Applicant: St. Jude Medical, Cardiology Division, Inc.Inventors: David John Copeland, Travis Michael Beckerle, Joseph Gordon, Bruce Edward Frohman, Michael William Metz, Savannah Grace Kyle, Kelsey Hill, Michael Shane Morrissey
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Publication number: 20180153694Abstract: A delivery device for a collapsible prosthetic heart valve, the delivery device comprising an inner shaft, a distal sheath disposed about a portion of the inner shaft and forming a compartment with the inner shaft, the compartment adapted to receive the valve, the inner shaft and the distal sheath being slidable relative to one another, and a handle including a frame, a deployment actuator, a lever, and a hub, each of the deployment actuator, the lever, and the hub being independently capable of opening and closing the compartment, a resheathing lock configured to alert a user of a position of the distal sheath relative to the inner shaft and to impede movement of the distal sheath relative to the frame, and an indicator disposed on the frame and capable of showing an extent of deployment of the valve.Type: ApplicationFiled: November 30, 2017Publication date: June 7, 2018Applicant: St. Jude Medical, Cardiology Division, Inc.Inventors: Christopher Allen Wilson, David John Copeland, Bruce Edward Frohman, Travis Michael Beckerle, Joseph Gordon, Savannah Grace Kyle, Michael Shane Morrissey
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Publication number: 20180050203Abstract: Fully implantable cochlear implant systems can include a cochlear electrode, a stimulator in electrical communication with the cochlear electrode, a signal processor in communication with the stimulator, and an implantable battery and/or communication module in communication with the signal processor. A cochlear implant network can include an external device in wireless communication with the fully implantable cochlear implant system via one or more system components, such as the implantable battery and/or communication module, the stimulator, and/or the signal processor. The external device can be configured to wirelessly communicate signals to the fully implantable cochlear implant system such as control signals and/or audio signals. Networks can include a plurality of external devices capable of interfacing with one or more implantable components of a fully implantable cochlear implant system.Type: ApplicationFiled: August 17, 2017Publication date: February 22, 2018Inventors: Paul R. Mazanec, Benjamin R. Whittington, Timothy J. Earnest, Travis Michael Beckerle