A device, system and components configured to be inserted or imbedded in an oral cavity of an animal or human for oral mucosa drug delivery system, OMDDS. The device includes a receptacle for one or more OMDDS with or without enhancer for drug delivery. The enhancer can assist in delivery via non-invasive or minimally invasive active or passive mythologies. The device is configured for several diseases including local and systemic disease. The device can replace invasive injections while reducing patient discomfort and pain. The device can be further configured to interface a plurality of one or more customizable functions and applications; including, but not limited to, auxiliary body biosensors, closed loop diagnosis and medication administration, data collections, alerting, reporting, communication network, preset biometrics and dose ranges. The system includes technology-integration, analytics, and wearables to accurately determine health referred to communication network of wearable drug delivery system.

The present invention relates to a system device and method for monitoring infant oral motor kinetics (OMK), which can be used to assess the functional significance of the different sucking components, i.e., the plasticity of infant sucking skills in relation to their oral feeding performance, at a particular time, during the developmental period and/or during preventive or therapeutic intervention programs. It is a unique system and apparatus that provides a means to study the nonnutritive and/or nutritive sucking skills, i.e., the Suction and/or Expression components of sucking, of infants in the natural setting, i.e., during a normal feeding session. OMK sensors, tracked in real-time by the monitoring system, include miniature pressure transducers, or pressure sensitive pads, attached to the nipple for measuring intraoral pressure pulses during Suction, and for measuring compression/stripping pressure pulses during Expression; and a miniature flow sensor for measuring fluid flow rate, which can be integrated over time to determine the volume of milk removed (bolus) per suck. Other signals, such as respiration, swallowing, thermal, optical, and acoustic signals can be recorded and compared along with the instrumented-nipple signals, in an OMK monitoring system.

The present invention relates to a system device and method for monitoring infant oral motor kinetics (OMK), which can be used to assess the functional significance of the different sucking components, i.e., the plasticity of infant sucking skills in relation to their oral feeding performance, at a particular time, during the developmental period and/or during preventive or therapeutic intervention programs. It is a unique system and apparatus that provides a means to study the nonnutritive and/or nutritive sucking skills, i.e., the Suction and/or Expression components of sucking, of infants in the natural setting, i.e., during a normal feeding session. OMK sensors, tracked in real-time by the monitoring system, include miniature pressure transducers, or pressure sensitive pads, attached to the nipple for measuring intraoral pressure pulses during Suction, and for measuring compression/stripping pressure pulses during Expression; and a miniature flow sensor for measuring fluid flow rate, which can be integrated over time to determine the volume of milk removed (bolus) per suck. Other signals, such as respiration, swallowing, thermal, optical, and acoustic signals can be recorded and compared along with the instrumented-nipple signals, in an OMK monitoring system.

A pacifier having a nipple portion and a handle portion separated by a collar. One or more sensors are disposed within the pacifier. The one or more sensors are configured to receive data from a user, wherein the user engages the nipple portion.

A pacifier comprising a reusable suction part and at least one exchangeable housing part which are releasably connectable to each other, wherein said suction part comprises a nipple and a shield connected to each other, wherein said suction part comprises a passageway through which a fluid can pass from outside a mouth of a user of the pacifier to inside the mouth of the user of the pacifier, and wherein said suction part comprises at least one first connection device, and wherein said housing part comprises a housing and at least one second connection device which is releasably connectable to the at least one first connection device, wherein said housing comprises at least one heat and moisture exchanger (HME) device and/or at least one filter device.

An intelligent pacifier estimates its state based on one or more sensors. Based on the estimated state, the pacifier may provide an alert or notification to a child or caretaker regarding the state of the child. The alert or notification may be generated by one or more output transducers and may increase in level depending on the estimated state. An application program communicates with the intelligent pacifier, allowing the caretaker to review and analyze the data collected by the intelligent pacifier, and to configure the intelligent pacifier. Embodiments of the intelligent pacifier may vary in the number and type of sensors, the number and type of estimated states, and the number and type of output transducers. The intelligent pacifier may be constructed as a single device or may consist of a housing that interfaces to a typical pacifier.

Disclosed herein is a thermometer-equipped pacifier capable of self-charging using a piezoelectric element. The pacifier includes a nipple part, a case, a temperature sensor unit, a piezoelectric element unit, a charging unit, a display unit, and a control unit. The nipple part is made of a flexible elastic material, and has an internal space. The case is coupled to the lower portion of the nipple part. The temperature sensor unit is disposed inside the nipple part, and detects body temperature. The piezoelectric element unit is disposed inside the nipple part, and generates electricity in response to external pressure. The charging unit is contained in the case, and charges and stores the electricity. The display unit is attached onto the case, and displays the body temperature. The control unit is contained in the case, and performs control so that power can operate the temperature sensor unit and the display unit.

The present invention relates to a system device and method for monitoring infant oral motor kinetics (OMK), which can be used to assess the functional significance of the different sucking components, i.e., the plasticity of infant sucking skills in relation to their oral feeding performance, at a particular time, during the developmental period and/or during preventive or therapeutic intervention programs. It is a unique system and apparatus that provides a means to study the nonnutritive and/or nutritive sucking skills, i.e., the Suction and/or Expression components of sucking, of infants in the natural setting, i.e., during a normal feeding session. OMK sensors, tracked in real-time by the monitoring system, include miniature pressure transducers, or pressure sensitive pads, attached to the nipple for measuring intraoral pressure pulses during Suction, and for measuring compression/stripping pressure pulses during Expression; and a miniature flow sensor for measuring fluid flow rate, which can be integrated over time to determine the volume of milk removed (bolus) per suck. Other signals, such as respiration, swallowing, thermal, optical, and acoustic signals can be recorded and compared along with the instrumented-nipple signals, in an OMK monitoring system.

The present invention is directed towards a pacifier having a base section, an upper mouth member extending from the base section, a sublingual member extending from the base section, and a transition section connecting the upper mouth member and sublingual member. The upper mouth member is configured to be positioned adjacent a roof of a mouth of a user when in use. The sublingual member is configured to be received in a sublingual pocket of the mouth of the user located below a tongue. The transition section has a profile that defines a pocket configured to receive a portion of the tongue of the user, thereby opening the sublingual pocket and positioning the sublingual member of the pacifier in the sublingual pocket of the mouth. A temperature sensor is fitted to the sublingual member so as to acquire a body temperature of the user from the sublingual pocket.

A pacifier device that includes location finding features in addition to common features of a pacifier for children. The pacifier device includes a beep unit that can generate an intense unit. A control unit can receive a command from a user device within a predefined distance from the pacifier device over a wireless network, and the control unit upon receiving the command, triggers the beep unit to emit an intense audio signal. The user device can be a smartphone and the user can follow the audio signal to find the misplaced pacifier device quickly and easily.