Patents by Inventor Michel M. Maharbiz
Michel M. Maharbiz 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: 20230089015Abstract: An implantable device is provided, comprising: a substrate; an integrated circuit attached to the substrate; and an ultrasonic transducer configured to receive ultrasonic waves that power the integrated circuit, wherein the ultrasonic transducer is attached to the substrate via one or more electrodes, and wherein the total electrode surface area in contact with the ultrasonic transducer is smaller than the surface area of a face of the ultrasonic transducer to which the one or more electrodes are attached. For example, the ultrasonic transducer may be a cubic piezoelectric crystal, and the electrodes may be positioned at the edges of a face of the cubic piezoelectric crystal, at the center of a face of the cubic piezoelectric crystal, or at the corners of a face of the piezoelectric crystal.Type: ApplicationFiled: February 19, 2021Publication date: March 23, 2023Applicants: The Regents of the University of California, Chan Zuckerberg Biohub, Inc.Inventors: Michel M. Maharbiz, Soner Sonmezoglu
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Patent number: 11607128Abstract: Described herein is an implantable device configured to detect impedance characteristic of a tissue.Type: GrantFiled: July 7, 2017Date of Patent: March 21, 2023Assignee: The Regents of the University of CaliforniaInventors: Michel M. Maharbiz, Jose M. Carmena, Dongjin Seo, Monica Lin, Meir Marmor, Safa Herfat, Chelsea Shields Bahney
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Publication number: 20230080274Abstract: The following relates generally to optical voltage sensing, and in particular to optical voltage sensing of power grids and of a subject body. For example, some embodiments include an optical resonator comprising: (i) a top electrode layer, (ii) a piezoelectric layer, and (iii) a substrate. A light source may illuminate the optical resonator of the voltage sensor with light comprising an incident optical power at an input wavelength, where the input wavelength is offset from a resonant wavelength of the optical resonator by a baseline voltage. The applied voltage may then be measured by measuring a reflected or transmitted light power.Type: ApplicationFiled: August 22, 2022Publication date: March 16, 2023Inventors: Michel M. Maharbiz, Jordan Edmunds, Soner Sonmezoglu
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Patent number: 11589748Abstract: Described herein is an implantable device having a sensor configured to detect an amount of an analyte, a pH, a temperature, strain, or a pressure; and an ultrasonic transducer with a length of about 5 mm or less in the longest dimension, configured to receive current modulated based on the analyte amount, the pH, the temperature, or the pressure detected by the sensor, and emit an ultrasonic backscatter based on the received current. The implantable device can be implanted in a subject, such as an animal or a plant. Also described herein are systems including one or more implantable devices and an interrogator comprising one or more ultrasonic transducers configured to transmit ultrasonic waves to the one or more implantable devices or receive ultrasonic backscatter from the one or more implantable devices. Also described are methods of detecting an amount of an analyte, a pH, a temperature, a strain, or a pressure.Type: GrantFiled: January 9, 2020Date of Patent: February 28, 2023Assignee: The Regents of the University of CaliforniaInventors: Michel M. Maharbiz, Jose M. Carmena, Mekhail Anwar, Burak A. Ozilgen, Dongjin Seo, Federica Fava
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Publication number: 20220265443Abstract: A brain-machine interface (BMI) system includes one or more implantable or non-implantable sensors, each being configured to detect or measure electrophysiological activity of motor units and to transmit an electrophysiological activity signal; one or more wearable apparatuses configured to be worn by or attached to a user and configured to receive and process the one or more electrophysiological activity signals transmitted by the sensors, and configured to transmit the processed signals to one or more processing units, which are configured to produce control signals based on the received processed signals using one or more machine learning algorithms; and one or more effectors configured to receive the control signals and configured to transduce the control signals into a haptic, tactile, chemical, mechanical, auditory, visual, and/or electrical stimuli so as to provide feedback to a user and/or to control operation of an external effector.Type: ApplicationFiled: March 10, 2022Publication date: August 25, 2022Inventors: Jose M. Carmena, Emanuele Formento, Paul Abraham Botros, Michel M. Maharbiz
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Publication number: 20220143414Abstract: Method and system embodiments for operating a device implantable in a subject using ultrasonic waves are described. In some embodiments, a method is performed at the implantable device to receive ultrasonic waves including an operating mode command. Then, the implantable device sets an operating mode of the implantable device to one operating mode from a plurality of predetermined operating modes based on the operating mode command.Type: ApplicationFiled: January 3, 2020Publication date: May 12, 2022Inventors: Michel M. MAHARBIZ, Joshua KAY, Jose M. CARMENA
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Publication number: 20220062650Abstract: Method and system embodiments for controlling power provided to a device implantable in a subject are described. In some embodiments, a method is performed at the implantable device to receive, from an interrogator, powering ultrasonic waves having a wave power. Then, energy from the powering ultrasonic waves is converted into an electrical signal to power the implantable device. Information that indicates whether more power or less power should be transmitted to the implantable device is transmitted to the interrogator.Type: ApplicationFiled: January 3, 2020Publication date: March 3, 2022Inventors: Michel M. MAHARBIZ, Joshua KAY, Jose M. CARMENA
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Publication number: 20220047869Abstract: Described herein are implantable device networks that include two or implantable devices configured to modulate neural activity in a subject. The network includes at least one implantable device that can detect a detection signal, such as an electrophysiological signal or a physiological condition. The network also includes a second implantable device configured to emit an electrical pulse based at least on information related to the detection signal. The implantable devices in the network can wirelessly communicate between each other, either directly or through an intermediate device.Type: ApplicationFiled: December 4, 2019Publication date: February 17, 2022Applicant: Iota Biosciences, Inc.Inventors: Jose M. CARMENA, Michel M. MAHARBIZ, Ryan NEELY
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Publication number: 20210308462Abstract: Described herein are implantable closed-loop neuromodulation devices, systems that includes such devices and an interrogator configured to emit ultrasonic waves that power the device, methods of using such devices and systems, and methods of modulating neural activity. The implantable device can include one or more curved members extending from a body. The curved members are configured to at least partially circumscribe a nerve, and include one or more electrode pads. The body includes an ultrasonic transducer configured to receive ultrasonic waves and convert energy from the ultrasonic waves into an electrical energy; and a computational circuit configured to receive a detection signal based on a detected electrophysiological signal, generate a stimulation signal based on the detection signal, and operate the electrode pads of to emit an electrical pulse to the nerve based on the stimulation signal.Type: ApplicationFiled: August 28, 2019Publication date: October 7, 2021Inventors: Jose M. CARMENA, Michel M. MAHARBIZ, Ryan NEELY
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Publication number: 20210268294Abstract: Described herein is an implantable medical device that includes a body having one or more ultrasonic transducers configured to receive ultrasonic waves and convert energy from the ultrasonic waves into an electrical energy, two or more electrodes in electrical communication with the ultrasonic transducer, and a clip attached to the body that is configured to at least partially surround a nerve and/or a filamentous tissue and position the two or more electrodes in electrical communication with the nerve. In certain examples, the implantable medical device includes two ultrasonic transducers with orthogonal polarization axes. Also described herein are methods for treating incontinence in a subject by converting energy from ultrasonic waves into an electrical energy that powers a full implanted medical device, and electrically stimulating a tibial nerve, a pudendal nerve, or a sacral nerve, or a branch thereof, using the fully implanted medical device.Type: ApplicationFiled: May 19, 2021Publication date: September 2, 2021Inventors: Michel M. MAHARBIZ, Ryan NEELY, Joshua KAY, Jose M. CARMENA
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Patent number: 11033746Abstract: Described herein is an implantable medical device that includes a body having one or more ultrasonic transducers configured to receive ultrasonic waves and convert energy from the ultrasonic waves into an electrical energy, two or more electrodes in electrical communication with the ultrasonic transducer, and a clip attached to the body that is configured to at least partially surround a nerve and/or a filamentous tissue and position the two or more electrodes in electrical communication with the nerve. In certain examples, the implantable medical device includes two ultrasonic transducers with orthogonal polarization axes. Also described herein are methods for treating incontinence in a subject by converting energy from ultrasonic waves into an electrical energy that powers a full implanted medical device, and electrically stimulating a tibial nerve, a pudendal nerve, or a sacral nerve, or a branch thereof, using the fully implanted medical device.Type: GrantFiled: April 19, 2019Date of Patent: June 15, 2021Assignee: IOTA BIOSCIENCES, INC.Inventors: Michel M. Maharbiz, Ryan Neely, Joshua Kay, Jose M. Carmena
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Publication number: 20210023353Abstract: An intelligent bioelectric module for use with a drug delivery system has a case and a set of at least two electrodes in electrical communication with a detection surface of the case. The case is configured so that, in use, the detection surface comes into electrical communication with (i) a second surface of the delivery system when a first surface of the delivery system has been put into contact with a tissue surface of a human or animal subject or (ii) the tissue surface that is adjacent to a portion contacted by the first surface of the delivery system or (iii) both the second surface and the tissue surface.Type: ApplicationFiled: September 28, 2020Publication date: January 28, 2021Inventors: Michael Motion, Michel M. Maharbiz, Russell Potts
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Patent number: 10898736Abstract: Described herein are implantable devices configured to emit an electrical pulse. An exemplary implantable device includes an ultrasonic transducer configured to receive ultrasonic waves that power the implantable device and encode a trigger signal; a first electrode and a second electrode configured to be in electrical communication with a tissue and emit an electrical pulse to the tissue in response to the trigger signal; and an integrated circuit comprising an energy storage circuit. Also described are systems that include one or more implantable device and an interrogator configured to operate the one or more implantable devices. Further described is a closed loop system that includes a first device configured to detect a signal, an interrogator configured to emit a trigger signal in response to the detected signal, and an implantable device configured to emit an electrical pulse in response to receiving the trigger signal.Type: GrantFiled: May 1, 2019Date of Patent: January 26, 2021Assignee: The Regents of the University of CaliforniaInventors: Michel M. Maharbiz, Dongjin Seo, Konlin Shen, Jose M. Carmena, Ryan Neely, Elad Alon, Jan Rabaey
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Patent number: 10842979Abstract: An intelligent bioelectric module for use with a drug delivery system has a case and a set of at least two electrodes in electrical communication with a detection surface of the case. The case is configured so that, in use, the detection surface comes into electrical communication with (i) a second surface of the delivery system when a first surface of the delivery system has been put into contact with a tissue surface of a human or animal subject or (ii) the tissue surface that is adjacent to a portion contacted by the first surface of the delivery system or (iii) both the second surface and the tissue surface.Type: GrantFiled: July 27, 2017Date of Patent: November 24, 2020Assignee: Bioelectric Devices, Inc.Inventors: Michael Motion, Michel M. Maharbiz, Russell Potts
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Publication number: 20200324148Abstract: Described herein is an implantable device having a sensor configured to detect an amount of an analyte, a pH, a temperature, strain, or a pressure; and an ultrasonic transducer with a length of about 5 mm or less in the longest dimension, configured to receive current modulated based on the analyte amount, the pH, the temperature, or the pressure detected by the sensor, and emit an ultrasonic backscatter based on the received current. The implantable device can be implanted in a subject, such as an animal or a plant. Also described herein are systems including one or more implantable devices and an interrogator comprising one or more ultrasonic transducers configured to transmit ultrasonic waves to the one or more implantable devices or receive ultrasonic backscatter from the one or more implantable devices. Also described are methods of detecting an amount of an analyte, a pH, a temperature, a strain, or a pressure.Type: ApplicationFiled: January 9, 2020Publication date: October 15, 2020Inventors: Michel M. Maharbiz, Jose M. Carmena, Mekhail Anwar, Burak A. Ozilgen, Dongjin Seo, Federica Fava
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Publication number: 20200289857Abstract: Described herein are implantable devices configured to emit an electrical pulse. An exemplary implantable device includes an ultrasonic transducer configured to receive ultrasonic waves that power the implantable device and encode a trigger signal; a first electrode and a second electrode configured to be in electrical communication with a tissue and emit an electrical pulse to the tissue in response to the trigger signal; and an integrated circuit comprising an energy storage circuit. Also described are systems that include one or more implantable device and an interrogator configured to operate the one or more implantable devices. Further described is a closed loop system that includes a first device configured to detect a signal, an interrogator configured to emit a trigger signal in response to the detected signal, and an implantable device configured to emit an electrical pulse in response to receiving the trigger signal.Type: ApplicationFiled: May 1, 2019Publication date: September 17, 2020Inventors: Michel M. Maharbiz, Dongjin Seo, Konlin Shen, Jose M. Carmena, Ryan Neely, Elad Alon, Jan Rabaey
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Patent number: 10765865Abstract: Described herein are implantable devices configured to emit an electrical pulse. An exemplary implantable device includes an ultrasonic transducer configured to receive ultrasonic waves that power the implantable device and encode a trigger signal; a first electrode and a second electrode configured to be in electrical communication with a tissue and emit an electrical pulse to the tissue in response to the trigger signal; and an integrated circuit comprising an energy storage circuit. Also described are systems that include one or more implantable device and an interrogator configured to operate the one or more implantable devices. Further described is a closed loop system that includes a first device configured to detect a signal, an interrogator configured to emit a trigger signal in response to the detected signal, and an implantable device configured to emit an electrical pulse in response to receiving the trigger signal.Type: GrantFiled: May 1, 2019Date of Patent: September 8, 2020Assignee: The Regents of the University of CaliforniaInventors: Michel M. Maharbiz, Dongjin Seo, Konlin Shen, Jose M. Carmena, Ryan Neely, Elad Alon, Jan Rabaey
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Patent number: 10744347Abstract: Described herein are implantable devices configured to emit an electrical pulse. An exemplary implantable device includes an ultrasonic transducer configured to receive ultrasonic waves that power the implantable device and encode a trigger signal; a first electrode and a second electrode configured to be in electrical communication with a tissue and emit an electrical pulse to the tissue in response to the trigger signal; and an integrated circuit comprising an energy storage circuit. Also described are systems that include one or more implantable device and an interrogator configured to operate the one or more implantable devices. Further described is a closed loop system that includes a first device configured to detect a signal, an interrogator configured to emit a trigger signal in response to the detected signal, and an implantable device configured to emit an electrical pulse in response to receiving the trigger signal.Type: GrantFiled: May 1, 2019Date of Patent: August 18, 2020Assignee: The Regents of the University of CaliforniaInventors: Michel M. Maharbiz, Dongjin Seo, Konlin Shen, Jose M. Carmena, Ryan Neely, Elad Alon, Jan Rabaey
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Publication number: 20200230441Abstract: Described herein are implantable devices configured to emit an electrical pulse. An exemplary implantable device includes an ultrasonic transducer configured to receive ultrasonic waves that power the implantable device and encode a trigger signal; a first electrode and a second electrode configured to be in electrical communication with a tissue and emit an electrical pulse to the tissue in response to the trigger signal; and an integrated circuit comprising an energy storage circuit. Also described are systems that include one or more implantable device and an interrogator configured to operate the one or more implantable devices. Further described is a closed loop system that includes a first device configured to detect a signal, an interrogator configured to emit a trigger signal in response to the detected signal, and an implantable device configured to emit an electrical pulse in response to receiving the trigger signal.Type: ApplicationFiled: May 1, 2019Publication date: July 23, 2020Inventors: Michel M. Maharbiz, Dongjin Seo, Konlin Shen, Jose M. Carmena, Ryan Neely, Elad Alon, Jan Rabaey
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Patent number: 10682530Abstract: Described herein are implantable devices configured to detect an electrophysiological signal. Certain exemplary implantable devices comprise a first electrode and a second electrode configured to engage a tissue and detect an electrophysiological signal; an integrated circuit comprising a multi-transistor circuit and a modulation circuit configured to modulate a current based on the electrophysiological signal; and an ultrasonic transducer configured to emit an ultrasonic backscatter encoding the electrophysiological signal from the tissue based on the modulated current. Also described herein are systems that include one or more implantable devices and an interrogator comprising one or more ultrasonic transducers configured to transit ultrasonic waves to the one or more implantable devices or receive ultrasonic backscatter from the one or more implantable devices.Type: GrantFiled: April 29, 2019Date of Patent: June 16, 2020Assignee: The Regents of the University of CaliforniaInventors: Michel M. Maharbiz, Dongjin Seo, Konlin Shen, Jose M. Carmena, Ryan Neely, Elad Alon, Jan Rabaey