Abstract: A cochlear implant including a cochlear lead, an antenna, a stimulation processor, and a magnet apparatus, associated with the antenna, including a case and a magnet assembly, having a spine and at least one magnet that is secured to the spine, that is located within the case and is rotatable relative to the case.
Type:
Grant
Filed:
April 25, 2017
Date of Patent:
June 21, 2022
Assignee:
Advanced Bionics AG
Inventors:
James George Elcoate Smith, Sung Jin Lee
Abstract: A method for calculating a representation of energy expenditure, according to one embodiment, includes receiving input from multiple source, the sources including at least one sensor. An energy expenditure value is calculated based on the input. A method for utilizing real-time sensor data to guide breathing, according to one embodiment, includes receiving biometric sensor data about a user wearing a wearable device. An output is selected based on the sensor data for guiding a breathing rate and/or a breathing depth of the user. The selected output is sent to an output subsystem selected from the group consisting of an output subsystem of the wearable device and an output subsystem of a host. A different output is selected in response to detecting a change in the biometric sensor data.
Abstract: Methods, systems, and devices for implantable node are described. The method may include storing, at an implantable stimulation node, a set of stimulation profiles in a memory during a configuration phase. The method may also include receiving a stimulation command corresponding to a stimulation profile of the set of stimulation profiles during a treatment phase. The method may further include delivering stimulation based at least in part on the stimulation profile corresponding to the received stimulation command. In some cases, the system may include an implantable hub, an implantable sensing node, and a sensing device.
Type:
Grant
Filed:
October 25, 2018
Date of Patent:
June 14, 2022
Assignee:
Medtronic, Inc.
Inventors:
Erik J. Peterson, Mandla Thokozani Shongwe, Earle Timothy Roberts, David Andrew Dinsmoor
Abstract: Systems and methods for applying electrical stimulation to different sub-populations of targeted neurological tissue for optimizing spinal cord stimulation are disclosed. According to an aspect, a method includes applying a first pattern of electrical stimulation to a first sub-population of targeted neurological tissue of a subject. The method also includes applying a second pattern of electrical stimulation to a second sub-population of targeted neurological tissue of the subject, the second pattern of electrical stimulation being applied at a different frequency than the first pattern of electrical stimulation.
Abstract: The present invention predicts prior to a laser iris color-change procedure what a patient's iris color will be after the procedure. The present invention does so by identifying and measuring a variety of anatomical features of the patient's eye that affect or are otherwise relevant to predicting the patient's post-operative iris color, translating these measurements into a post-operative iris color prediction, and communicating this prediction to the patient in a manner sufficient to manage the patient's expectations with respect to the aesthetic outcome of the procedure.
Abstract: A medical lead includes a lead body, an electrical connector, an electrical conductor, and a sleeve. The lead body includes a distal end and a proximal end defining a longitudinal axis of the lead body. The electrical connector is positioned near the proximal end of the lead body. The electrical conductor extends about the longitudinal axis of the lead body. The sleeve is coupled to an insulative material of the lead body and positioned around the electrical conductor. The electrical conductor is electrically coupled to the electrical connector. The sleeve is not fixed to the electrical conductor. In response to bending of the medical lead, the conductor may move within the sleeve to relieve strain created by the bending.
Type:
Grant
Filed:
May 29, 2020
Date of Patent:
June 14, 2022
Assignee:
Medtronic, Inc.
Inventors:
Jeffrey Zweber, Joseph Bradley, Vincent Whelan, Ian Johnson, Sean P. Skubitz
Abstract: A worry stone system is provided. The system includes a worry stone device having an internal sensing and processing system, a user computing device, and a server having a memory storing worry stone data. The server may be programmed to receive worry stone data from the worry stone device through the user computing device in near real-time that includes contact time between the user and the worry stone device, a rate of rubbing the worry stone device, and/or a pressure used for rubbing the worry stone device. The server may process the worry stone data and send the same for display on the user computing device. The server operates to continuously process received near real-time worry stone data and send the processed worry stone data for display on the user computing device during the entire time of engagement of the worry stone device by the user.
Abstract: The present disclosure relates to an improved transcutaneous energy transfer (TET) system that generates and wirelessly transmits a sufficient amount of energy to power one or more implanted devices, including a heart pump, while maintaining the system's efficiency, safety, and overall convenience of use. The disclosure further relates one or more methods of operation for the improved system.
Abstract: An electronic device worn, such as a wrist-worn watch, able to generate and display an ECG image associated with the wearer's heart. The device includes electrically-conductive first and second contact points for conveying first and second signals. The first contact point is located on a bezel or a pushbutton of the electronic device that is physically touchable by the wearer. The second contact point is located on the bottom of the housing so as to physically contact the wearer's skin of the user's wrist when the device is worn. The electronic device may also receive location signals to determine a current location using an antenna at least partially formed by the bezel. A processing element may receive the first and second signals, generate an ECG waveform, and an ECG image based thereon. A display graphically presents the ECG image as a sequence or stream of ECG images.
Type:
Grant
Filed:
August 25, 2017
Date of Patent:
June 7, 2022
Inventors:
Adam B. Rasmussen, Kevin M. Hansen, Alexander J. Waller
Abstract: The present invention relates to an apparatus (1) for use in irradiation therapy, comprising an ionization module (2) adapted to emit ionization irradiation, and a power source (4) and a control unit (5) to provide a user interface. The apparatus is characterized in that the apparatus comprises an UV module (3) adapted to emit UVA, UVB and/or UVC irradiation (9), whereby the ionization module and the UV module emit irradiation simultaneously or alternately, and the ionization module emits irradiation (8) at a wave length at least below 100 nm. The invention also relates to a use of the apparatus for radiating an object (7) and use of the apparatus and method for treatment of a mammal (7). A detector may measure and/or create an image of the irradiation (6).
Abstract: A read-out circuitry for acquiring a multi-channel biopotential signal, comprises: a plurality of read-out signal channels, each receiving an input signal from a unique signal electrode; a reference channel receiving a reference signal from a reference electrode; wherein each read-out signal channel and the reference channel comprises a channel amplifier connected to receive the input signal in a first input node and with an output node connected to a second input node via a channel feedback loop; wherein each signal channel amplifier comprises a capacitor between the second input nodes of the signal channel amplifier and the reference channel amplifier, and wherein each signal channel feedback loop and the reference channel feedback loop comprise a filter.
Abstract: Devices and methods to deliver microcurrent stimulation therapy to the human body, when connected to a micro-stimulation current-generating apparatus. The method of applying microcurrent stimulation therapy to key points around the eye for treatment of problems such as macular degeneration, retinitis pigmentosa, glaucoma, optic neuritis and other eye-related or nerve-related conditions, as well as other diseases, such as Bell's Palsy, requiring localized stimulation to the eyes and/or on other body parts.
Type:
Grant
Filed:
August 27, 2021
Date of Patent:
June 7, 2022
Assignee:
i-Lumen Scientific, Inc.
Inventors:
Blair P. Mowery, Marshall T. Masko, John B. Jarding, Gary A. Tapp
Abstract: Provided is a surgical support system including: a camera installed in an operating room; and an information processing apparatus including processing circuitry configured to compare reference data that is related to at least one reference person or reference device in the operating room and that is generated from observation of the operating room, with first feature data related to a first person or a first device extracted from a first image captured by the camera installed in the operating room.
Abstract: A method includes receiving an anatomical map of at least a portion of a heart. Positions and respective bipolar intracardiac electrogram (EGM) signals measured at the positions are received for at least a region of the anatomical map. Primary activations and secondary activations are identified in the bipolar intracardiac EGM signals. A surface representation of the bipolar intracardiac EGM signals over the region is derived, including the identified primary activations and secondary activations. The surface representation is presented overlaid on the anatomical map.
Abstract: According to an embodiment, a system for acquiring ECAP recordings at a later session for a cochlear implant patient is disclosed. The system includes a receiving unit configured to receive, corresponding to an electrode, a stored prior individual value from a plurality of stored prior individual values of ECAP/an ECAP prior growth function, the plurality of stored prior individual values or the ECAP prior growth function being obtained at a previous session. Furthermore, a processing unit configured to process the received prior individual value/ECAP growth function to determine a stimulus signal value corresponding to the received individual value/a selected point on the ECAP prior growth function, instruct a signal delivery unit to provide to the electrode a first stimulus signal comprising a first level that is same or above said stimulus signal value, and determine a resulting ECAP generated in response to said first stimulus signal.
Abstract: Systems and methods are provided herein for treating a patient in cardiogenic shock. An intravascular heart pump system is inserted into vasculature of the patient. The heart pump system has a cannula, pump outlet, pump inlet, and rotor. The heart pump system is positioned within the patient such that the cannula extends across the patient's aortic valve, the pump inlet is located within the patient's left ventricle, and the pump outlet is located within the patient's aorta. Data related to time-varying parameters of the heart pump system is acquired from the heart pump system. A plurality of features are extracted from the data. A probability of survival of the patient is determined based on the plurality of features and using a prediction model. The heart pump system is operated to treat the patient.
Type:
Grant
Filed:
December 21, 2018
Date of Patent:
May 24, 2022
Assignee:
ABIOMED, INC.
Inventors:
Chen Liu, Ahmad El Katerji, Scott Corbett
Abstract: This invention provides methods for mapping and ablating renal nerves to treat disease caused by systemic renal nerve hyperactivity, e.g. hypertension, heart failure, renal failure and diabetes. Also provided are catheters for performing the mapping and ablating functions.
Abstract: A headset includes a housing defining an audio cavity, a speaker located within the audio cavity, and first and second sensor modules within the housing in spaced-apart, angled relationship to each other. The housing includes an aperture through which sound from the speaker can pass, and the first and second sensor modules are on opposing sides of a direction from the speaker to the aperture. The first sensor module is configured to direct electromagnetic radiation at a first target region of an ear of a person wearing the headset and to detect a first energy response signal therefrom that is associated with one or more physiological metrics of the subject, and the second sensor module is configured to direct electromagnetic radiation at a second target region of the ear and to detect a second energy response signal therefrom that is associated with the one or more physiological metrics.
Type:
Grant
Filed:
October 24, 2018
Date of Patent:
May 10, 2022
Assignee:
Valencell, Inc.
Inventors:
Steven Francis LeBoeuf, Jesse Berkley Tucker, Michael Edward Aumer, Eric Douglas Romesburg, Joseph Norman Morris
Abstract: A first value of an electrical stimulation parameter of an electrical stimulation therapy that resulted in a first physiological response for a patient is identified. The electrical stimulation therapy is delivered at least in part through a lead that is implanted inside the patient. Based on the first value, a limit of a second value of the electrical stimulation parameter that should result in a second physiological response for the patient is determined. An actual second value of the electrical stimulation parameter that actually resulted in the second physiological response for the patient is identified. Based on a comparison of the limit of the second value and the actual second value, an implantation of the lead is evaluated.
Abstract: Electrical stimulation, including high frequency stimulation, for altering autonomic functions, and associated systems and methods are disclosed. A representative method includes directing an electrical signal to a target tissue at (a) a ventral region of the patient's spinal canal, (b) a sympathetic chain structure, or (c) both (a) and (b), at a frequency in a range from 1 kHz to 100 kHz, and an amplitude that does not generate an objectionable, patient-detectable sensation.