The present invention relates to an electronic headset system which is preferably wirelessly controlled, and is used to treat a tinnitus disorder. The system in an electronic headset and preferably an electronic communication device, such as a smartphone, laptop, tablet, desk top computer, server, and the like or any combination thereof. The electronic headset includes a treatment probe and emits complex signals which are converted into vibrations by the treatment probe and are transmitted to a users cochlea via the treatment probe communicating with the user's mastoid bone when the electronic headset is worn, thereby alleviating the symptoms of the user's tinnitus disorder.

An apparatus includes a handle assembly, a guide member extending distally from the handle assembly, and a dilation catheter slidably disposed relative to the guide member. The dilation catheter includes an expandable element configured to dilate a paranasal sinus ostium of a patient. A navigation sensor is movably disposed at the distal end of the guide member and is operable to generate a signal corresponding to a location thereof within the patient. The navigation sensor is configured to translate distally with the dilation catheter relative to the guide member when a distal end of the dilation catheter translates distally beyond the distal end of the guide member. The navigation sensor is further configured to assume a position at the distal end of the guide member when the distal end of the dilation catheter retracts proximally of the distal end of the guide member.

Systems and methods can be employed for trans-tympanic membrane access to the middle ear for delivery of a therapeutic agent, for example, to the round window niche adjacent to the cochlea under direct visualization. The systems and methods can also be used to improve accessibility and visualization for various otological surgical procedures, such as, but not limited to, cholesteatoma removal, tympanic membrane repair and ossicular chain repair.

Caloric stimulation and pressure stimulation can be applied to the ear for treatment of neurological disorders, such as migraine, pain, and headache. Heat can be applied first to increase the sensitivity of the mechanoreceptors in the ear. The pressure can be applied after heating to produce a stronger neurological response than would occur without the heating. In some cases, cooling can be used. Valves can be used to direct fluid flow to a right ear, a left ear, or both. Valves can be used to transition the system between an irrigation or caloric mode and a pressure mode. Green eyewear can be used for therapeutic relief.

Devices, systems, and methods can be employed to facilitate indirect viewing into cavities such as, but not limited to, the middle ear space. Some embodiments have uses such as, but not limited to, facilitating visualization and procedures in the outer, middle, and/or inner ear in order to diagnose and/or treat disorders including, but not limited to, hearing loss and other ear disorders. In particular implementations, a surgical microscope is used in conjunction with an inverter lens and a distal lens. In some cases, the distal lens transverses a membrane or septum such as, but not limited to, the tympanic membrane. The distal lens can be an assembly combining two or more lenses, in some embodiments. For example, in some cases wide angle lenses, zoom lenses, lenses of other various shapes and/or prisms can be used in the distal lens.

Systems and methods can be employed for trans-tympanic membrane access to the middle ear for delivery of a formulation or implant device to a target location under direct visualization. The systems and methods can also be used to improve accessibility and visualization for various otological surgical procedures, such as, but not limited to, cholesteatoma removal, tympanic membrane repair and ossicular chain repair.

Systems and methods can be employed for trans-tympanic membrane access to the middle ear for delivery of a therapeutic agent, for example, to the round window niche adjacent to the cochlea under direct visualization. The systems and methods can also be used to improve accessibility and visualization for various otological surgical procedures, such as, but not limited to, cholesteatoma removal, tympanic membrane repair and ossicular chain repair.

Systems and methods can be employed for facilitating access and procedures in the outer, middle, and inner ear in order to diagnose or treat ear disorders including, but not limited to hearing loss and excessive ear wax. In some examples, the systems and methods include instruments and techniques that facilitate trans-tympanic membrane or trans-fibrous ring access to the middle ear. The systems and methods can also be used to improve accessibility for various otological surgical procedures, such as, but not limited to, cholesteatoma removal, tympanic membrane repair and ossicular chain repair.

Devices, systems, and methods can be employed to facilitate performing procedures in the outer, middle, and/or inner ear in order to diagnose and/or treat disorders including, but not limited to, hearing loss and other ear disorders. For example, this document describes devices, systems and methods that include instruments and techniques to minimize the invasiveness and/or to enhance the efficacy of procedures that are performed in the outer, middle, and/or inner ear spaces such as mastoidectomy, tympanoplasty, cholesteatoma treatments, otosclerosis treatments, and Eustachian tube treatments.

Intra-tympanic injections of therapeutics into the inner ear can be used to treat conditions such as hearing loss. One or more stabilizing devices that define working channels can be temporarily implanted in the tympanic membrane. Purpose-built instruments such as endoscopes, forceps, and injections instruments can be passed through the working channels of the stabilizer devices to access the inner ear where the therapy can be administered. Afterwards, the stabilizing devices can be removed from the tympanic membrane and the tympanic membrane can heal, typically without the need for sutures.