A system for providing multimodal stimulation to a user includes a tactile device including a set of tactile actuators. Additionally, the system can include and/or interface with a user device, a remote computing system, and/or any other devices. A method for multimodal stimulation functions to provide therapy to a user for tinnitus or other conditions, and includes any or all of: receiving a set of inputs; determining a set of outputs; providing the set of outputs to a user; and adjusting any or all of the set of outputs.

A three-dimensional, head mounted microphone array is employed to isolate and analyze intracranial sound sources such as may provide for objective tinnitus. The microphone array allows a region of interest within the patient's head to be isolated for the detection of sounds and allows episodic sounds to be automatically identified as to location. An interactive display allows a better understanding of sound locations and the extracted sounds can be analyzed with respect to a library of sounds linked to particular locations and diagnoses.

A hearing aid system (100, 200) adapted for providing an enriched sound and a method of providing such an enriched sound.

A tinnitus masking system for use by a person having tinnitus The system comprises a sound delivery system having left and right ear-level audio delivery devices and is configured to deliver a masking sound to the person via the audio delivery devices such that the masking sound appears to originate from a virtual sound source location that substantially corresponds to the spatial location in 3D auditory space of the source of the tinnitus as perceived by the person. The masking sound being represented by left and right audio signals that are converted to audible sound by the respective audio delivery devices.

An apparatus for use in treating a neurological disorder of the auditory system, including a sound processing unit, an audio stimulation unit and a somatosensory stimulation unit. The audio stimulation unit includes an input for receiving the modified audio signal from the sound processing unit. The sound processing unit includes a processor operable to analyze an audio signal and generate a modified audio signal and a plurality of actuation signals therefrom representative of the audio signal. The somatosensory stimulation unit includes an array of stimulators to apply a somatosensory stimulation to a subject, and an input for receiving the plurality of actuation signals from the sound processing unit and directing individual actuation signals in a predetermined output for delivering an audio stimulation to the subject.

Proposed are a method and device of determining optimal complex stimuli for tinnitus treatment. The method of determining the optimal complex stimuli for tinnitus treatment includes: identifying one or more sound stimuli selected by a user input from among a plurality of sound stimuli; identifying one or more electrical stimuli selected by the user input from among a plurality of electrical stimuli; determining a first complex stimulus sequence of complex stimuli in which the one or more selected sound stimuli and the one or more selected electrical stimuli are combined; and applying the complex stimuli to a user, wearing a tinnitus treatment device, according to the determined first complex stimulus sequence.

An interactive gaming system for a user suffering tinnitus. The system comprises a game machine configured to provide a game scenario in which the user's performance in the game scenario is based on the user's response to audio cue arrangements comprising a combination of sounds, and where at least one of the sounds has one or more sound characteristics, that are configured based on one or more sound characteristics of the user's perceived tinnitus. The system further comprises an audio delivery device or devices that are driven by the game machine to present the audio cue arrangements to the user in accordance with the game scenario and a user interface in signal communication with the game machine and which is operable by a user to interact with the game scenario by responding to the audio cue arrangements.

Various aspects include approaches for managing tinnitus in a user. In some particular aspects, a computer-implemented method of managing tinnitus of a user with at least one wearable device includes: actuating, according to a prescribed pattern and using the at least one wearable device: a) an electro-acoustic transducer to provide an audio output to the user, and b) a contact element to apply vibration to a body part of the user, where the prescribed pattern both stimulates the nervous system of the user and delivers a sound to the user, which together mitigate the tinnitus.

The present disclosure includes provides methods for assessing resting-state fMRI functional connectivity, resting-state MEGI functional connectivity, and/or task-based spatiotemporal auditory cortical activity latency in a subject to detect, monitor, and/or diagnose Tinnitus, with or without hearing impairment. The present disclosure also provides systems, devices, and methods for diagnosing Tinnitus and/or hearing impairment in a subject. Also provided are systems configured for performing the disclosed methods and computer readable medium storing instructions for performing steps of the disclosed methods.

An ear-wearable electronic device comprises a housing configured to be worn in, at or about an ear of a wearer. A sound generator is disposed in the housing and configured to produce at least a tinnitus masking sound. A physiologic sensor arrangement is disposed in or supported by the housing and configured to measure one or both of a plurality of physiologic parameters and a plurality of physiologic conditions of the wearer. The physiologic sensor arrangement is configured to produce physiologic sensor signals in response to the measurements. A controller is operatively coupled to the sound generator and the physiologic sensor arrangement. The controller is configured to detect one or more of presence, absence, and severity of tinnitus of the wearer using the physiologic sensor signals.