This invention presents an intraoral device for generation of contact perception between teeth, the device being configured for application to the upper or lower dental arch of a user and comprising a contact means (20, 20′) configured to be associated with at least a portion of one to four posterior teeth (D1) of the upper or lower dental arch, the device (10) being configured to generate a perception of contact to the user upon the contact between the contact means (20, 20′) and at least a portion of the opposing arch to at least a portion of one to four posterior teeth (D1), offering the option of an accessible intraoral device for practical use to the user, and that does not impair the mouth functions of the user during its use in the waking period. This invention further comprises a method of applying the device which allows the user to apply the device without assistance of a skilled professional, and a method for determining the thickness of the aforesaid device.

An intraoral scanner having a tomographic imaging function includes an OCT body configured to obtain an internal cross-sectional image of an oral structure and detecting reflected light; an OCT scan probe configured to irradiate the layer measurement light emitted from the OCT body onto the oral structure and transfer the reflected light to the OCT body; and a control/processing unit configured to control the OCT body, take tomographic images of the oral structure at two or more positions, obtain two or more two-dimensional cross-sectional images of the oral structure, extract an abrasion or filling area for the respective two-dimensional cross-sectional images, calculate cross-sectional position information of the abrasion or filling area, then arrange the position information of the abrasion or filling area, and obtain three-dimensional shape information of the abrasion or filling area.

Embodiments of the present invention provide an oral device. According to one embodiment of the present invention, a mouthpiece suitable to detachably engage teeth of an upper jaw is provided. The mouthpiece comprises an adhesive layer configured to attach a hermetically sealed chamber to the mouthpiece. The hermitically sealed chamber fits within a concave space created by the mouthpiece. The hermitically sealed chamber comprises two layers and embedded between those two layers are a pressure sensor, a microphone, an optical sensor, a temperature sensor, a communications module, a storage enclosure, and a biosensor. Each of the pressure sensor, the microphone, the optical sensor, the temperature sensor, the communications module, the storage enclosure, and the biosensor are operably connected within the hermetically sealed chamber.

Systems and methods for use in monitoring one or more physiological parameters of a user. The system comprises: at least one sensing unit comprising at least one vibration sensor; and at least one elastic tube configured to be embedded within a cushioning layer for supporting at least a portion of the user. One end of the at least one tube is sealed and the other end of the at least one tube is closed by the at least one sensing unit so as to form a volume that is filled with fluid and that is defined by one or more inner walls of the tube and a surface of the at least one sensing unit. The at least one elastic tube is configured to transmit vibrations from one or more sections of the at least one tube to the at least one sensing unit for detection by the at least one vibration sensor.

A system and method for training a classification module of nonverbal audio events and a classification module for use in a variety of nonverbal audio event monitoring, detection and command systems. The method comprises capturing an in-ear audio signal from an occluded ear and defining at least one nonverbal audio event associated to the captured in-ear audio signal. Then sampling and extracting features from the in-ear audio signal. Once the extracted features are validated, associating the extracted features to the at least one nonverbal audio event and updating the classification module with the association. The nonverbal audio event comprises one or a combination of user-induced or externally-induced nonverbal audio events such as teeth clicking, tongue clicking, blinking, eye closing, teeth grinding, throat clearing, saliva noise, swallowing, coughing, talking, yawning with inspiration, yawning with expiration, respiration, heartbeat and head or body movement, wind, earpiece insertion or removal, degrading parts, etc.

An intraoral monitoring device includes a flexible substrate, a plurality of sensors, a rechargeable battery, a device module and a communication module. The plurality of sensors senses a plurality of health parameters from an associated user, in real time, to generate a plurality of sensed signals. The device module includes a memory, a controller and a segregation module. The memory stores various health parameters and their respective ranges, various health reports of the user, and basic details of all users. A controller is configured to generate sensed data and the segregation module is configured to segregate the data corresponding to the plurality of health parameters associated with the users. A communication module is configured to enable data communication to and from the intraoral device.

A bruxism mouth guard device is disclosed herein. The bruxism mouth guard device includes a mouth guard body portion with a channel formed therein that is configured to receive one or more teeth of a user; one or more pressure sensing devices configured to sense a grinding or clenching of the one or more teeth of the user; a vibration device configured to vibrate one or more portions of the mouth of the user; and a control device operatively coupled to the one or more pressure sensing devices and the vibration device, the control device configured to activate the vibration device so as to vibrate the one or more portions of the mouth of the user when the one or more pressure sensing devices sense the grinding or clenching of the one or more teeth by the user. A bruxism mouth guard system including the device is also disclosed herein.

Mandibular repositioning devices have a mandibular piece having a first teeth covering and having a housing proximate each of a left molar portion and a right molar portion, a protrusive flange extending cranially from each housing, and a maxillary piece having a second teeth covering and having a housing proximate each of a left molar portion and a right molar portion. Each housing encloses a power source electrically connected an on-board circuit board and the housings of the maxillary piece further have the power source electrically connected to a motor operatively connected to a drive for anterior and posterior movements of the mandibular piece. The maxillary piece sits on the mandibular piece with the driver operatively engaged with the protrusive flange. The protrusive flange has a concavely-shaped anterior surface mated to a convexly-shaped head of the driver shaped to match the concavely-shaped anterior surface of the protrusive flange.

The disclosure herein relates to devices, systems and methods for detecting disturbances that may occur during the sleep of a subject. In particular, in some embodiments, the devices, systems, and methods described herein comprise a sensing unit and a processing unit for processing data relating to disturbances that may occur during the sleep of a subject, in which the sensing unit may include a gyroscope adapted to measure movements of the mandible of a subject.

Mandibular lingual repositioning devices include a mandibular piece having a first teeth covering and a housing proximate a left molar portion and a right molar portion that each have a first drive and a protrusive flange extending cranially and a stimulator protrusion extending toward the tongue each extend from the housing, and include a maxillary piece having a second teeth covering and a housing proximate each of a left molar portion and a right molar portion that each have a second driver. Each housing encloses a power source electrically connected to a motor and to an on-board circuit board, and has its respective driver operatively connected to a respective motor. Each housing of the mandibular piece also has an electrode of a stimulator electrically connected to its power source. Each first driver is operatively engaged with the maxillary piece and each second driver is operatively engaged with a protrusive flange.