Abstract: A system and method for monitoring pH of an intraoral device involves receiving the oral pH data from at least one pH sensor embedded within the intraoral device. The oral pH data is then correlated with one or more user related data to classify the oral pH data into one or more pre-defined categories indicative of a health condition. Further, the machine learning module generates feedback and/or recommendations for the user based on the classification of the oral pH data into one or more pre-defined categories. The oral pH data and/or feedback and/or recommendations are then communicated to the user and/or external device.
Type:
Application
Filed:
July 27, 2023
Publication date:
February 1, 2024
Applicant:
Dianyx Innovations, LLC
Inventors:
Seyed Nabavi, Robert Kibler, John Cogan, Asim Roy, Brandon Canfield, Collin Emerick
Abstract: 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.
Type:
Application
Filed:
March 2, 2023
Publication date:
September 7, 2023
Applicant:
Dianyx Innovations, LLC
Inventors:
Robert Kibler, Seyed Nabavi, John Cogan, Asim Roy, Brandon Canfield, Collin Emerick
Abstract: An intraoral monitoring device includes a plurality of sensors integrated on a flexible substrate. The plurality of sensors includes first and second photoplethysmography (PPG) sensors. The first PPG sensor is coupled along an anterior portion of the flexible substrate and adapted to be located intraorally along a first anatomical location defined along a mid-line of a maxilla, facing the labial mucosa, directly at a septal branch of a superior labial artery in a front lip to consistently provide a plurality of first PPG signal, relating to a plurality of cardiorespiratory parameters. Further, the second PPG sensor is coupled to a rear portion of the flexible substrate, adapted to be located intraorally along a second anatomical location defined along the interior part of an oral cavity facing outward toward the labial mucosa to consistently provide a plurality of second PPG signals, relating to a plurality of muscular parameters.
Type:
Application
Filed:
December 21, 2022
Publication date:
June 22, 2023
Applicant:
Dianyx Innovations, LLC
Inventors:
Robert Kibler, Seyed Nabavi, John Cogan, Asim Roy, Brandon Canfield, Collin Emerick