A device for generating alternating magnetic fields for inducing eddy currents in an organism in order to treat tinnitus comprising a head part, a current source, a controller, and one or more coils. At least one coil has at least two layers with a different winding, whereby alternating magnetic fields can be generated more effectively for inducing eddy currents in an organism in order to treat tinnitus.

A hearing device adapted to a specific user comprises a) a forward path for processing an electric signal representing sound, and comprising an input unit, a signal processing unit, and an output unit, b) a configurable tinnitus signal generator for generating a tinnitus masking signal intended to relieve a tinnitus of the user, and c) a combination unit operationally connected to the configurable tinnitus signal generator and to the forward path, d) an analysis path comprising d1) an analysis unit for providing a forward path analysis control signal; d2) a control unit for receiving the forward path analysis control signal, and providing a resulting tinnitus control signal based on a predefined criterion involving said number of control input signals, wherein the control unit is adapted to control the configurable tinnitus signal generator, depending on the resulting tinnitus control signal, to thereby adaptively control a level of the tinnitus masking signal.

Disclosed herein, among other things, are apparatus and methods for automated assessment and adjustment of tinnitus-masker impact on speech intelligibility during fitting. In various embodiments, a method of fitting a tinnitus-masker device for a patient is provided. The method includes using a speech intelligibility model to predict impact of therapy provided by the tinnitus-maker device on speech understanding of the patient. A parameter of the tinnitus-masker device is automatically adjusted during fitting to reduce the impact of the therapy provided by the tinnitus-maker device on speech understanding of the patient, according to various embodiments.

Disclosed herein, among other things, are apparatus and methods for automated assessment and adjustment of tinnitus-masker impact on speech intelligibility during use of the tinnitus-masker. In various embodiments, a method of fitting a tinnitus-masker device for a patient is provided. The method includes using a speech intelligibility model to predict impact of therapy provided by the tinnitus-maker device on speech understanding of the patient. A parameter of the tinnitus-masker device is automatically adjusted during use to reduce the impact of the therapy provided by the tinnitus-maker device on speech understanding of the patient, according to various embodiments.

A wireless earpiece in embodiments of the present invention may have one or more of the following features: (a) a housing for fitting in an ear of a user, (b) a logic engine controlling functionality of the wireless earpiece, (c) a plurality of sensors reading user input from the user, and (d) a transceiver communicating with at least a wireless device, wherein the logic engine receives a selection of audio through the plurality of sensors, determines whether a tinnitus frequency associated with a user wearing the wireless earpiece is present in the audio, filters the tinnitus frequency from the audio to generate filtered audio, and plays the filtered audio to the user utilizing one or more speakers.

Disclosed herein are method to deliver supplemental or therapeutically effective aliquots or doses of one or more of at least gaseous fluids to at least one of the ear canal, eyes, skin, hair and lungs. Methods and systems may include delivery of energy aliquots of photodynamic energy including in the red, long red and/or near IR spectra to the eyes. The method may include delivering gaseous fluid to a subject in an enclosed space with a partially opened bottom and a vent opposite the bottom, providing a gaseous fluid douche or bath to at least one of the eyes, ears, skin, hairline, nose and mouth of the subject.

An electronic device according to various embodiments comprises: a communication circuit configured to communicate with an external electronic device; a memory in which one or more sound sources and one or more test sounds for tinnitus frequency testing are stored; and at least one processor, comprising processing circuitry, wherein the memory can store instructions that when executed by at least one processor, individually and/or collectively, cause the electronic device to: transmit a first control message to the external electronic device so that the one or more test sounds are output through the external electronic device corresponding to an ear with tinnitus identified from among the left ear and the right ear on the basis of a first input; determine a tinnitus frequency corresponding to a test sound selected from among the one or more test sounds on the basis of a second input; and transmit a second control message to the external electronic device so that a second sound source obtained by removing a portion corresponding to the tinnitus frequency from a first sound source from among the one or more sound sources is output through the external electronic device.

Systems and methods for treating a subject with tinnitus are disclosed. The treatment can involve subjecting an individual afflicted with tinnitus to altered environmental sounds, wherein the altered environmental sounds are spatially altered forms of environmental sounds that the individual would naturally perceive. If the individual has a right ear and a left ear, a first audio sample from a location proximate to the left ear may be acquired along with a second audio sample proximate to the right ear. The treatment can then involve delivering at least a portion of the first audio sample to the right ear of the person experiencing tinnitus or delivering at least a portion of the second audio sample to the left ear of the person experiencing tinnitus, thereby creating at least a partial spatial transposition of the environmental sounds experienced by the individual.

The treatment of tinnitus may include a tinnitus therapy including generating a tinnitus therapy sound that is similar to a patient's perceived tinnitus sound. In one example, a method for tinnitus therapy may include tracking a tinnitus therapy over a duration, the tinnitus therapy including a tinnitus therapy sound matching a patient's perceived tinnitus played over the duration and presenting each of a volume evolution of the tinnitus therapy sound and usage data of the tinnitus therapy over the duration.

The treatment of tinnitus may include a tinnitus therapy including generating a tinnitus therapy sound that is similar to a patient's perceived tinnitus sound. In one example, a method for tinnitus therapy may include tracking a tinnitus therapy over a duration, the tinnitus therapy including a tinnitus therapy sound matching a patient's perceived tinnitus played over the duration and presenting each of a volume evolution of the tinnitus therapy sound and usage data of the tinnitus therapy over the duration.