Patents by Inventor Chad Andresen
Chad Andresen 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: 9623253Abstract: Some implementations provide a method for treating urological disorders in a patient, the method including: placing an introducer into a patient's body through an incision site on the patient's body, the patient suffering from an urological disorder; placing an implantable wireless device into an inner lumen of the introducer, the implantable wireless device suitable to fit into the inner lumen and configured to receive electromagnetic energy non-inductively from a source located outside the patient's body; through the inner lumen of the introducer, positioning the implantable wireless device adjacent to or near one or more excitable tissue in the patient, the one or more excitable tissue regulating a nerve activity associated with the urological disorder; and causing neural modulation of the one or more excitable tissue through one or more electrodes on the implantable wireless device.Type: GrantFiled: March 14, 2014Date of Patent: April 18, 2017Assignee: Micron Devices, LLCInventors: Laura Tyler Perryman, Chad Andresen
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Patent number: 9566449Abstract: An implantable neural stimulator method for modulating excitable tissue in a patient including: implanting a neural stimulator within the body of the patient such that one or more electrodes of the neural stimulator are positioned at a target site adjacent to or near excitable tissue; generating an input signal with a controller module located outside of, and spaced away from, the patient's body; transmitting the input signal to the neural stimulator through electrical radiative coupling; converting the input signal to electrical pulses within the neural stimulator; and applying the electrical pulses to the excitable tissue sufficient to modulate said excitable tissue.Type: GrantFiled: October 31, 2013Date of Patent: February 14, 2017Assignee: Micro Devices, LLCInventors: Laura Tyler Perryman, Patrick Larson, Chad Andresen
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Publication number: 20170036033Abstract: An implantable neural stimulator method for modulating excitable tissue in a patient including: implanting a neural stimulator within the body of the patient such that one or more electrodes of the neural stimulator are positioned at a target site adjacent to or near excitable tissue; generating an input signal with a controller module located outside of, and spaced away from, the patient's body; transmitting the input signal to the neural stimulator through electrical radiative coupling; converting the input signal to electrical pulses within the neural stimulator; and applying the electrical pulses to the excitable tissue sufficient to modulate said excitable tissue.Type: ApplicationFiled: October 31, 2013Publication date: February 9, 2017Inventors: Laura Tyler Perryman, Patrick Larson, Chad Andresen
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Publication number: 20160367825Abstract: An implantable neural stimulator method for modulating excitable tissue in a patient including: implanting a neural stimulator within the body of the patient such that one or more electrodes of the neural stimulator are positioned at a target site adjacent to or near excitable tissue; generating an input signal with a controller module located outside of, and spaced away from, the patient's body; transmitting the input signal to the neural stimulator through electrical radiative coupling; converting the input signal to electrical pulses within the neural stimulator; and applying the electrical pulses to the excitable tissue sufficient to modulate said excitable tissue.Type: ApplicationFiled: September 1, 2016Publication date: December 22, 2016Inventors: Laura Tyler Perryman, Patrick Larson, Chad Andresen
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Publication number: 20160279428Abstract: A system, including: an implantable neural stimulator including electrodes, at least one antenna and an electrode interface; a radio-frequency (RF) pulse generator module comprising an antenna module configured to send an input signal to the antenna in the implantable neural stimulator through electrical radiative coupling, the input signal containing electrical energy and polarity assignment information that designates polarity assignments of the electrodes in the implantable neural stimulator; and wherein the implantable neural stimulator is configured to: control the electrode interface such that the electrodes have the polarity assignments designated by the polarity assignment information, create one or more electrical pulses suitable for modulation of neural tissue using the electrical energy contained in the input signal, and supply the electrical pulses to the electrodes through the electrode interface such that the electrodes apply the electrical pulses to the neural tissue with the polarity assignmenType: ApplicationFiled: October 31, 2013Publication date: September 29, 2016Applicant: Micron Devices LLCInventors: Laura Tyler Perryman, Patrick Larson, Chad Andresen
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Patent number: 9433789Abstract: A method, system and apparatus is presented for a wireless neural modulation feedback control system as it relates to an implantable medical device comprised of a radio frequency (RF) receiver circuit, one or more dipole or patch antenna(s), one or more electrode leads connected to at least one dipole or patch antenna(s), and at least one microelectronic neural modulation circuit, and an external or internally implanted RF device to neurally modulate brain tissue in order to treat medical conditions that can be mediated by neuronal activation or inhibition, such as Parkinson's, Alzheimer's, epilepsy, other motor or mood based disorders, and/or pain. The implantable receiver captures energy radiated by the RF transmitter unit and converts this energy to an electrical waveform by the implanted neural modulation circuit to deliver energy that can be utilized by the attached electrode pads in order to activate targeted neurons in the brain.Type: GrantFiled: March 14, 2014Date of Patent: September 6, 2016Assignee: Micron Devices LLCInventors: Laura Tyler Perryman, Chad Andresen
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Patent number: 9409030Abstract: An implantable neural stimulator includes one or more electrodes, a dipole antenna, and one or more circuits and does not include an internal power source. The one or more electrodes are configured to apply one or more electrical pulses to neural tissue. The dipole antenna is configured to receive an input signal containing electrical energy utilizing electrical radiative coupling (for example, in the frequency range form 300 MHz to 8 GHz). The one or more circuits are configured to create one or more electrical pulses using the electrical energy contained in the input signal; supply the electrical pulses to the electrodes such the electrical pulses are applied to neural tissue; generate a stimulus feedback signal; and send the feedback to the dipole antenna to transmit to the second antenna through electrical radiative coupling.Type: GrantFiled: July 17, 2012Date of Patent: August 9, 2016Assignee: Micron Devices LLCInventors: Laura Tyler Perryman, Patrick Larson, Chad Andresen
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Publication number: 20160136439Abstract: An implementation provides a system that includes: a control module including a first antenna, the control module configured to generate a first radio frequency (RF) signal and transmit the first RF signal using the first antenna; an implantable lead module including a second antenna and at least one electrode configured to stimulate excitable tissue of a subject; and a relay module configured to receive the first RF signal; generate a second RF signal based on the first RF signal, the second RF signal encoding a stimulus waveform to be applied by the at least one electrodes of the implantable lead module to stimulate the excitable tissue of the subject; and transmit the second RF signal to the implantable lead module.Type: ApplicationFiled: January 21, 2016Publication date: May 19, 2016Inventors: Laura Tyler Perryman, Chad Andresen
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Publication number: 20160136438Abstract: A wearable device for facilitating neurophysiological treatment of a patient harboring an implanted neural stimulator is provided. The wearable device includes a transmitting antenna configured to accept one or more input signals and to transmit one or more electromagnetic signals to a neural stimulator that is implanted in a patient's body. The wearable device further includes a control circuitry configured to provide the one or more input signals to the transmitting antenna. The wearable device further includes a battery that provides electrical power to at least the control circuitry. The wearable device is configured to be worn outside the patient's body.Type: ApplicationFiled: January 21, 2016Publication date: May 19, 2016Inventors: Laura Tyler Perryman, Elizabeth Greene, Chad Andresen
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Publication number: 20160101287Abstract: An implantable wireless lead includes an enclosure, the enclosure housing: one or more electrodes configured to apply one or more electrical pulses to a neural tissue; a first antenna configured to: receive, from a second antenna and through electrical radiative coupling, an input signal containing electrical energy, the second antenna being physically separate from the implantable neural stimulator lead; one or more circuits electrically connected to the first antenna, the circuits configured to: create the one or more electrical pulses suitable for stimulation of the neural tissue using the electrical energy contained in the input signal; and supply the one or more electrical pulses to the one or more electrodes, wherein the enclosure is shaped and arranged for delivery into a subject's body through an introducer or a needle.Type: ApplicationFiled: December 17, 2015Publication date: April 14, 2016Inventors: Laura Tyler Perryman, Patrick Larson, Chad Andresen
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Publication number: 20160038741Abstract: Some implementations provide a method for treating craniofacial pain in a patient, the method including: placing a wirelessly powered passive device through an opening into a target site in a head or neck region of the patient's body, the wirelessly powered passive device configured to receive an input signal non-inductively from an external antenna; positioning the wirelessly powered passive device adjacent to or near a nerve at the target site; and causing neural modulation to the nerve through one or more electrodes on the wirelessly powered passive device.Type: ApplicationFiled: March 14, 2014Publication date: February 11, 2016Inventors: Laura TYLER PERRYMAN, Chad ANDRESEN
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Patent number: 9254393Abstract: A wearable device for facilitating neurophysiological treatment of a patient harboring an implanted neural stimulator is provided. The wearable device includes a transmitting antenna configured to accept one or more input signals and to transmit one or more electromagnetic signals to a neural stimulator that is implanted in a patient's body. The wearable device further includes a control circuitry configured to provide the one or more input signals to the transmitting antenna. The wearable device further includes a battery that provides electrical power to at least the control circuitry. The wearable device is configured to be worn outside the patient's body.Type: GrantFiled: December 26, 2013Date of Patent: February 9, 2016Assignee: Micron Devices LLCInventors: Laura Tyler Perryman, Elizabeth Greene, Chad Andresen
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Publication number: 20160023003Abstract: Some implementations may provide an implantable wirelessly powered device that includes: one or more electrodes configured to apply one or more electrical pulses to an excitable tissue; and a first antenna configured to: receive, from a second antenna and through electrical radiative coupling, an input signal containing electrical energy, the second antenna being physically separate from the implantable device; and one or more circuits electrically connected to the first antenna, the circuits configured to: create the one or more electrical pulses suitable for stimulation of excitable tissue using the electrical energy contained in the input signal; and supply the one or more electrical pulses to the one or more electrodes, wherein the implantable device is shaped and arranged for delivery into a subject's body through an introducer or a needle of 18 gauge or smaller.Type: ApplicationFiled: March 14, 2014Publication date: January 28, 2016Inventors: Laura Tyler PERRYMAN, Chad ANDRESEN
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Publication number: 20160023005Abstract: Some implementations provide a method for treating urological disorders in a patient, the method including: placing an introducer into a patient's body through an incision site on the patient's body, the patient suffering from an urological disorder; placing an implantable wireless device into an inner lumen of the introducer, the implantable wireless device suitable to fit into the inner lumen and configured to receive electromagnetic energy non-inductively from a source located outside the patient's body; through the inner lumen of the introducer, positioning the implantable wireless device adjacent to or near one or more excitable tissue in the patient, the one or more excitable tissue regulating a nerve activity associated with the urological disorder; and causing neural modulation of the one or more excitable tissue through one or more electrodes on the implantable wireless device.Type: ApplicationFiled: March 14, 2014Publication date: January 28, 2016Inventors: Laura Tyler Perryman, Chad Andresen
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Patent number: 9242103Abstract: An implementation provides a system that includes: a control module including a first antenna, the control module configured to generate a first radio frequency (RF) signal and transmit the first RF signal using the first antenna; an implantable lead module including a second antenna and at least one electrode configured to stimulate excitable tissue of a subject; and a relay module configured to receive the first RF signal; generate a second RF signal based on the first RF signal, the second RF signal encoding a stimulus waveform to be applied by the at least one electrodes of the implantable lead module to stimulate the excitable tissue of the subject; and transmit the second RF signal to the implantable lead module.Type: GrantFiled: September 17, 2012Date of Patent: January 26, 2016Assignee: Micron Devices LLCInventors: Laura Tyler Perryman, Chad Andresen
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Publication number: 20160015988Abstract: Some implementations provide a method of treating chronic pain or inflammation with neural modulation, the method including: placing a surgical instrument to reach into a torso section of a patient's body, the patient suffering from chronic pain or inflammation in a primary area in the torso section; placing a wireless device into an opening on the surgical instrument, the wireless device suitable to fit into the opening and configured to receive electromagnetic energy non-inductively from a source located outside the patient's body; through the opening on the surgical instrument, positioning the wireless electrode lead adjacent to or near excitable tissue in the primary area in the torso section of the patient; and causing electrical pulses to be delivered to one or more electrodes on the wireless device such that neural modulation is applied to the excitable tissue in the primary area in the torso section.Type: ApplicationFiled: March 14, 2014Publication date: January 21, 2016Inventors: Laura Tyler PERRYMAN, Chad ANDRESEN
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Patent number: 9220897Abstract: An implantable wireless lead includes an enclosure, the enclosure housing: one or more electrodes configured to apply one or more electrical pulses to a neural tissue; a first antenna configured to: receive, from a second antenna and through electrical radiative coupling, an input signal containing electrical energy, the second antenna being physically separate from the implantable neural stimulator lead; one or more circuits electrically connected to the first antenna, the circuits configured to: create the one or more electrical pulses suitable for stimulation of the neural tissue using the electrical energy contained in the input signal; and supply the one or more electrical pulses to the one or more electrodes, wherein the enclosure is shaped and arranged for delivery into a subject's body through an introducer or a needle.Type: GrantFiled: October 3, 2013Date of Patent: December 29, 2015Assignee: Micron Devices LLCInventors: Laura Tyler Perryman, Patrick Larson, Chad Andresen
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Patent number: 9199089Abstract: An implantable neural stimulator includes one or more electrodes, at least one antenna, and one or more circuits connected to the at least one antenna. The one or more electrodes are configured to apply one or more electrical pulses to excitable tissue. The antenna is configured to receive one or more input signals containing polarity assignment information and electrical energy, the polarity assignment information designating polarities for the electrodes. The one or more circuits are configured to control an electrode interface such that the electrodes have the polarities designated by the polarity assignment information; create one or more electrical pulses using the electrical energy contained in the input signal; and supply the one or more electrical pulses to the one or more electrodes through the electrode interface so that the one or more electrical pulses are applied according to the polarities designated by the polarity assignment information.Type: GrantFiled: July 30, 2012Date of Patent: December 1, 2015Assignee: Micron Devices LLCInventors: Laura Tyler Perryman, Patrick Larson, Chad Andresen
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Patent number: D752761Type: GrantFiled: August 7, 2014Date of Patent: March 29, 2016Assignee: Micron Devices LLCInventors: Laura Tyler Perryman, Chad Andresen, Patrick Larson
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Patent number: D752762Type: GrantFiled: August 7, 2014Date of Patent: March 29, 2016Assignee: Micron Devices LLCInventors: Laura Tyler Perryman, Chad Andresen, Patrick Larson