A hygiene stick (1), for personal care, in particular for ear hygiene, comprises a rod (2) for picking up and handling with the fingers and at least one head (3) supported by said rod (2). The head (3) is made of elastic material and is supported cantilever-style by said rod (2) projecting from the rod along an axial line (5).

A therapeutic device (1) has a stem (3) having a distal end (60) configured for insertion in a patient's ear canal with latching by suction to the tympanic membrane so that there is no relative movement despite patient head movement. A needle (63) punctures the membrane after suction is applied by negative pressure via a lumen (66). The needle tip is located within a suction cup which grips the membrane. A hand-held control device (2) is coupled to the stem and has a user-actuated controller (8) for controlling application of negative pressure (7) to the suction lumen.

Systems and methods for opening the eustachian tubes of a subject are provided. Aspects of the systems include: a swallow inducer; a nasal passage seal; a pressure source configured to apply positive pressure to a sealed nasal passage; a sensor configured to detect a parameter indicative of a swallow resultant palate closure; and a controller operably coupled to the pressure source and the sensor, wherein the controller is configured to cause the pressure source to apply positive pressure to a sealed nasal passage upon detection by the sensor of the parameter indicative of a swallow resultant palate closure. Also provide are methods of using the systems to open eustachian tubes. The systems and methods find use in a variety of different applications, e.g., the treatment of a subject for Otitis Media with Effusion (OME).

Systems and methods for opening the eustachian tubes of a subject are provided. Aspects of the systems include: a swallow inducer; a nasal passage seal; a pressure source configured to apply positive pressure to a sealed nasal passage; a sensor configured to detect a parameter indicative of a swallow resultant palate closure; and a controller operably coupled to the pressure source and the sensor, wherein the controller is configured to cause the pressure source to apply positive pressure to a sealed nasal passage upon detection by the sensor of the parameter indicative of a swallow resultant palate closure. Also provide are methods of using the systems to open eustachian tubes. The systems and methods find use in a variety of different applications, e.g., the treatment of a subject for Otitis Media with Effusion (OME).

Hearing management, using a portable device or integrated portable devices, can include generating during a hearing diagnostics phase an audiogram based on responses of a user to signals conveyed to the user. In response to detecting ambient noises during the hearing diagnostics phase, noise cancellation can be performed to cancel the ambient noises in conjunction with conveying the signals to the user. During a hearing enhancement phase, sounds can be captured with the portable device. The captured sounds can be enhanced in real-time during the hearing enhancement phase by amplifying select frequencies of the captured sounds using signal gain. The frequencies can be selected, and the signal gain determined based on the audiogram. The captured sounds, now enhanced, can be conveyed to the user as frequency-enhanced sounds.

Hearing management, using a portable device or integrated portable devices, can include generating during a hearing diagnostics phase an audiogram based on responses of a user to signals conveyed to the user. In response to detecting ambient noises during the hearing diagnostics phase, noise cancellation can be performed to cancel the ambient noises in conjunction with conveying the signals to the user. During a hearing enhancement phase, sounds can be captured with the portable device. The captured sounds can be enhanced in real-time during the hearing enhancement phase by amplifying select frequencies of the captured sounds using signal gain. The frequencies can be selected, and the signal gain determined based on the audiogram. The captured sounds, now enhanced, can be conveyed to the user as frequency-enhanced sounds.

A device for removing earwax from an ear canal includes a shaft; and an earwax collector head at an end of the shaft. The collector head is in the form of a helical strip surrounding a substantially elongated space. The helical strip has a cross section such that an outward facing surface of the helical strip is substantially flat and an interior surface of the helical strip radially tapers to an inward facing edge. A distal end of the helical strip tapers to present a wedge.

An earplug (1) for administering a fluid agent into an ear canal is provided. The earplug (1) comprises a first part (10) adapted for insertion in the ear canal. The first part comprises an elongated member (11) having a chamber (12) for containing the fluid agent, the chamber (12) having at least one outlet (13) at a proximal end (14) of the elongated member (11); and a malleable member (17) disposed laterally of the elongated member (11). The earplug (1) further comprises a second part (20) comprising a piston (21). The piston (21) has a first end (22) which is insertable in the elongated member (11), and a second end (23) which has a push member (24). The piston (21) is displaceable from a first position (A) distally of the chamber (12) to a second position (B) within the chamber (12), such that the fluid agent is injected from the chamber (12) through the outlet (13) into the ear canal.

An ear canal medication applicator including a tympanogram ear canal occlusion earpiece operatively connected to a bulb insufflator through a body, and a syringe operatively connected to an IV line, wherein the syringe is operatively attached to the body and the IV line is threaded through a portion of the tympanogram ear canal occlusion earpiece. A method of treating the ear canal, by providing a dual application of medication at two different locations in the ear canal of an individual and treating the ear canal.

The present solution provides trans-round window membrane (RWM) drug delivery. As an overview, the system can include a micropump that is connected to a flexible cannula. The cannula can include a stiffened and sharpened tip to facilitate insertion through the RWM. The cannula can be inserted through the RWM to improve the distribution of the delivered drug throughout the inner ear. The present solution can function as a small implantable or wearable device that can be used for both chronic and acute trans-RWM drug delivery. With this configuration, the micropump can constantly or intermittently deliver, over a period of days to months, small volumes of drugs from an internal reservoir.