Nyxoah SA Patent applications |
Patent application number | Title | Published |
20160030740 | METHODS FOR TREATMENT OF SLEEP APNEA - A method for delivering energy as a function of degree coupling may utilize an external unit configured for location external to a body of a subject and at least one processor associated with the implant unit and configured for electrical communication with a power source. The method may determine a degree of coupling between the primary antenna and a secondary antenna associated with the implant unit, and regulate delivery of power to the implant unit based on the degree of coupling between the primary antenna and the secondary antenna. | 02-04-2016 |
20160030739 | METHODS FOR TREATMENT OF SLEEP APNEA - A method for delivering energy as a function of degree coupling may utilize an external unit configured for location external to a body of a subject and at least one processor associated with the implant unit and configured for electrical communication with a power source. The method may determine a degree of coupling between the primary antenna and a secondary antenna associated with the implant unit, and regulate delivery of power to the implant unit based on the degree of coupling between the primary antenna and the secondary antenna. | 02-04-2016 |
20140107727 | Apparatus and Methods for Feedback Based Nerve Modulation - A device according to some embodiments may include a housing configured for location external to a body of a subject. The device may also include at least one processor associated with the housing and configured to communicate with a circuit implanted in the subject within proximity to a tongue of the subject, wherein the circuit is in electrical communication with at least one electrode, receive a physiological signal from the subject via the circuit, and send a control signal to the implanted circuit in response to the physiological signal, wherein the control signal is predetermined to activate neuromuscular tissue within the tongue. | 04-17-2014 |
20130085560 | System and Method for Nerve Modulation Using Noncontacting Electrodes - An implant unit configured for implantation into a body of a subject may include an antenna configured to receive a signal. The implant unit may also include at least one pair of modulation electrodes configured to be implanted into the body of the subject in the vicinity of at least one nerve to be modulated, the at least one pair of modulation electrodes being configured to receive an applied electric signal in response to the signal received by the antenna and generate an electrical field to modulate the at least one nerve from a position where the at least one pair of modulation electrodes does not contact the at least one nerve. | 04-04-2013 |
20130085559 | Modulator Apparatus Configured for Implantation - An implant unit according to some embodiments may include a flexible carrier, at least one pair of modulation electrodes on the flexible carrier, and at least one implantable circuit in electrical communication with the at least one pair of modulation electrodes. The at least one pair of modulation electrodes and the at least one circuit may be configured for implantation through derma on an underside of a subject's chin and for location proximate to terminal fibers of the medial branch of the subject's hypoglossal nerve, such that an electric field extending from the at least one pair of modulation electrodes can modulate one or more of the terminal fibers of the medial branch of the hypoglossal nerve. | 04-04-2013 |
20130085558 | Device and Method for Modulating Nerves Using Parallel Electric Fields - A device may include at least one pair of modulation electrodes configured for implantation in the vicinity of a nerve to be modulated such that the electrodes are spaced apart from one another along a longitudinal direction of the nerve to be modulated. The electrodes may be further configured to facilitate an electric field in response to an applied electric signal, the electric field including field lines extending in the longitudinal direction of the nerve to be modulated. The device may further include at least one circuit in electrical communication with the at least one pair of modulation electrodes and being configured to cause application of the electric signal applied at the at least one pair of modulation electrodes. | 04-04-2013 |
20130085545 | Electrode Configuration for Implantable Modulator - A device according to some embodiments may include an implantable flexible carrier and a pair of electrodes located on the carrier. The electrodes may be spaced from each other by a distance greater than 3 mm, and may be configured to cause, when supplied with an electrical signal, a unidirectional electric field sufficient to modulate at least one nerve. | 04-04-2013 |
20130085544 | Apparatus and Method to Control an Implant - A device according to some embodiments of the present disclosure includes a housing configured to retain a battery, a primary antenna associated with the housing, and at least one processor in electrical communication with the battery and the primary antenna. In some embodiments, the at least one processor may be configured to cause transmission of a primary signal from the primary antenna to an implantable device during a treatment session of at least three hours in duration, wherein the primary signal is generated using power supplied by the battery and includes a pulse train, the pulse train including a plurality of modulation pulses. | 04-04-2013 |
20130085537 | APPARATUS AND METHODS FOR IMPLANT COUPLING INDICATION - A device is disclosed that includes an external unit configured to communicate with an implant unit beneath the skin of a subject and an indicator associated with the external unit. The indicator is configured to produce an indicator signal when the external unit is within a predetermined range of the implant unit. In addition, the indicator may be configured to vary the indicator signal according to a distance between the external unit and the implant unit. Furthermore, a method of locating an external unit with respect to an implant unit is disclosed that includes detecting a distance between the external unit and the implanted unit located beneath the skin of a subject, producing an indicator signal when the external unit is within a predetermined range of the implant unit, and varying the indicator signal as a function of a distance between the external unit and the implant unit. | 04-04-2013 |
20130072999 | Systems and Methods for Determining a Sleep Disorder Based on Positioning of the Tongue - Devices and methods are disclosed that include an external unit comprising at least one processor. The processor may be configured to receive a signal indicative of tongue movement in a subject from an implant unit implanted in the subject, determine whether the tongue movement is representative of sleep disordered breathing, generate a modulation control signal to correct the sleep disordered breathing when the at least one processor determines an occurrence of sleep disordered breathing. | 03-21-2013 |
20110152965 | Diagnosis and Prediction of Obstructive Sleep Apnea - A tongue location monitoring system, including, one or more position circuits that respond to transmissions from a transceiver, a transceiver that transmits to the one or more position circuits, a control circuit coupled to the transceiver: wherein the control circuit determines the location of a person's tongue based on the responses of the position circuits; and wherein either the transceiver or the position circuits are implanted in the muscle of the person's tongue or placed on the tongue, and the latter is placed outside the person's head. | 06-23-2011 |
20110093036 | Implantable Electrical Stimulator - An implantable stimulator for stimulating muscles or nerves, including, an array of electrodes for electrically stimulating muscles or nerves, a controller for controlling the activity of the electrodes, and wherein the controller is adapted to dynamically select the electrodes that are used to participate in stimulating the muscles or nerves. | 04-21-2011 |