A portable, self-contained vacuum tongue cleaning device uses a removable cleaning head so that different heads can be used with different users. The device includes a debris and saliva separator that removes the debris and saliva from the vacuum flow. This separator is carried by the cleaning head in order to minimize required cleaning of the base of the device. The base carries a vacuum pump, a power supply, a switch, and an inlet that allows the power supply to be recharged. The device is configured for emergency use in an oral surgeon's office wherein vacuum flow is required during surgeries.

A device and method for stimulating tongue muscle spindles via stochastic resonance is disclosed. The device can include a stimulator for application to the tongue of a user. The stimulator can include a transducer configured to produce vibrations, a tongue pad coupled to the transducer, an amplifier, and a controller. The method can include selecting a type of vibrations to be at least one of Brownian, pink, or white noise, selecting a frequency range of the vibrations, and applying a stimulator to the tongue of a user to apply the vibrations to the tongue of the user.

Example devices and methods of tongue stimulation for communication of information to a user are disclosed herein. In an example, a tongue stimulation device may include a body configured to be placed entirely within a mouth of the user and atop the tongue of the user. An array of electro-tactile elements may be distributed on the body, wherein each of the electro-tactile elements is configured to stimulate an area of the tongue adjacent the electro-tactile element. A wireless receiver coupled to the body may be configured to receive stimulation information wirelessly from outside the mouth of the user. At least one processing unit coupled to the body may be configured to transform the received stimulation information into a stimulation signal for each of the electro-tactile elements, and to provide the stimulation signals to the electro-tactile elements.

Example devices and methods of tongue stimulation for communication of information to a user are disclosed herein. In an example, a tongue stimulation device may include a body configured to be placed entirely within a mouth of the user and atop the tongue of the user. An array of electro-tactile elements may be distributed on the body, wherein each of the electro-tactile elements is configured to stimulate an area of the tongue adjacent the electro-tactile element. A wireless receiver coupled to the body may be configured to receive stimulation information wirelessly from outside the mouth of the user. At least one processing unit coupled to the body may be configured to transform the received stimulation information into a stimulation signal for each of the electro-tactile elements, and to provide the stimulation signals to the electro-tactile elements.

A dilation stent is used to support the genioglossus muscle, and includes a sleeve, a central tube and a stent body, the central tube passes through and is sleeved in the sleeve, and the stent body is connected to an end of the sleeve; and several support arms are provided between the sleeve and the stent body, and the support arms are of a collapsible structure, with one end of each support arm being connected to the sleeve and the central tube, and the other end thereof being connected to the stent body. When the stent contracts, the support arms are collapsed, and the stent body is retracted at the end of the sleeve; and when the stent expands, the sleeve pushes the support arms to splay out, and thus the stent body spreads out.

An apparatus and method for use in treating tinnitus, employs a sound processing unit, a tactile unit, and an interface therebetween. The tactile unit comprises an array of stimulators each of which can be independently actuated to apply a tactile stimulus to a subject, and an input for receiving a plurality of actuation signals from the interface and directing individual actuation signals to individual stimulators. The sound processing unit receives an audio signal at an input, analyses the signal with a digital signal processor to generate the actuation signals which are representative of the audio signal, and provides the plurality of actuation signals to the interface. In a preferred embodiment the digital signal processor divides the audio signal into a series of frames in the time domain, performs a transform on each frame to generate a set of coefficients representing said frame, and maps the set of coefficients to a set of actuation signals to be applied to the array.

An apparatus and method for use in treating tinnitus, employs a sound processing unit, a tactile unit, and an interface therebetween. The tactile unit comprises an array of stimulators each of which can be independently actuated to apply a tactile stimulus to a subject, and an input for receiving a plurality of actuation signals from the interface and directing individual actuation signals to individual stimulators. The sound processing unit receives an audio signal at an input, analyses the signal with a digital signal processor to generate the actuation signals which are representative of the audio signal, and provides the plurality of actuation signals to the interface. In a preferred embodiment the digital signal processor divides the audio signal into a series of frames in the time domain, performs a transform on each frame to generate a set of coefficients representing said frame, and maps the set of coefficients to a set of actuation signals to be applied to the array.

Example devices and methods of tongue stimulation for communication of information to a user are disclosed herein. In an example, a tongue stimulation device may include a body configured to be placed entirely within a mouth of the user and atop the tongue of the user. An array of electro-tactile elements may be distributed on the body, wherein each of the electro-tactile elements is configured to stimulate an area of the tongue adjacent the electro-tactile element. A wireless receiver coupled to the body may be configured to receive stimulation information wirelessly from outside the mouth of the user. At least one processing unit coupled to the body may be configured to transform the received stimulation information into a stimulation signal for each of the electro-tactile elements, and to provide the stimulation signals to the electro-tactile elements.

Systems and methods for improving airway patency are disclosed. An oral device is positioned in in the oral cavity and applies a negative pressure to the oral cavity. The oral device has pressure delivery ports directed toward an anterior surface of the soft palate when positioned therein. The negative pressure generates an air flow out of the oral cavity. A pressure tube is coupled to the oral device to provide the applied negative pressure. A pressure source is coupled to the pressure tube to generate the applied negative pressure. A collector is coupled to the pressure tube and/or pressure source to collect liquid, typically saliva, from the air flow out of the oral cavity. The collector is disposed outside of the oral cavity and coupled to the oral device.

Apparatuses and methods for improving airway patency are provided. A medial surface of the patient's tongue is constrained with a tongue constraint of an oral device placed in the oral cavity to generate a clear region between the medial surface and the hard palate. The clear region is in fluid communication with the soft palate. The tongue constraint has superior surface and inferior surfaces configured to generate the clear region. Negative pressure is applied within the oral cavity to hold the soft palate in a position in which the airway is at least partially open. The negative pressure is applied through one or more ports of the oral device. The one or more ports remain unobstructed by the tongue when the negative pressure is applied. The applied negative pressure causes the soft palate and tongue form a seal whereby the patient's airway is substantially fluidly isolated from the clear region.