The dental bridge fitting system is a medical device. The dental bridge fitting system is configured for use in measuring the oral surface contours of a patient. The measurements taken by the dental bridge fitting system allow for the fabrication of a dental prosthetic device, such as a bridge, that fits flush on the oral surface that was measured by the dental bridge fitting system. The dental bridge fitting system comprises a mouthpiece, a plurality of capture devices, an image processor, and a master processor. The mouthpiece contains the plurality of capture devices. The plurality of capture devices, the image processor, and the master processor are electrically interconnected.

The dental bridge fitting system is a medical device. The dental bridge fitting system is configured for use in measuring the oral surface contours of a patient. The measurements taken by the dental bridge fitting system allow for the fabrication of a dental prosthetic device, such as a bridge, that fits flush on the oral surface that was measured by the dental bridge fitting system. The dental bridge fitting system comprises a mouthpiece, a plurality of capture devices, an image processor, and a master processor. The mouthpiece contains the plurality of capture devices. The plurality of capture devices, the image processor, and the master processor are electrically interconnected.

Provided is a method to detect dental composite materials by using a dental tool that provides a source of ultraviolet light. The method includes steps of projecting the source of ultraviolet light to be directed onto one or more dental composite materials on a tooth of a patient. The dental tools used for the method include a visible light source, an ultraviolet light source and a switch which switches light projected from the tool between visible light and ultraviolet light.

Provided is a method to detect dental composite materials by using a dental tool that provides a source of ultraviolet light. The method includes steps of projecting the source of ultraviolet light to be directed onto one or more dental composite materials on a tooth of a patient. The dental tools used for the method include a visible light source, an ultraviolet light source and a switch which switches light projected from the tool between visible light and ultraviolet light.

Methods and apparatuses for monitoring either or both the performance of an orthodontic appliance for repositioning a patient's teeth and/or the user compliance in wearing the appliance using a biosensor. The apparatuses described herein may include one or more sensors, including biosensors, electrical sensors, or both, configured to generate sensor data related to user compliance and/or repositioning of the patient's teeth by an orthodontic appliance.

Methods and apparatuses for monitoring either or both the performance of an orthodontic appliance for repositioning a patient's teeth and/or the user compliance in wearing the appliance using a biosensor. The apparatuses described herein may include one or more sensors, including biosensors, electrical sensors, or both, configured to generate sensor data related to user compliance and/or repositioning of the patient's teeth by an orthodontic appliance.

A pulp cavity distance measurement system according to the present invention comprises: a first scan unit which acquires surface data; and a second scan unit which acquires volume data that is scan information different from the surface data, wherein the surface data and volume data are delivered via a database unit included in a control unit, and are merged into a single piece of data by a data merging unit. The shortest distance (pulp cavity distance) from the surface of the enamel of a tooth to the surface of the pulp cavity is calculated from the merged data, and the pulp cavity distance may be visually displayed by a distance stage display unit by using the calculated distance information (data). Here, the visual display may be expressed using colors or patterns having specific markings, and have a plurality of patterns so that the distance is displayed so as to be divided in stages. Accordingly, the system is advantageous in that a therapist can minimize tooth preparation in a part in which the distance to the pulp cavity is short, and reduce the discomfort of a patient due to vibrations caused by tooth preparation.

A method (300) for detecting one or more caries using an imaging device (10), the method including the steps of: (i) directing (320) light from a first light source (12) toward a tooth (40); (ii) measuring (340), with an optical sensor (16), transmission of light from the first light source through the tooth; (iii) directing (330) light from a second light source (14) toward the tooth, wherein the second light source directs light at the tooth at a different angle relative to the first light source; (iv) measuring (350), with the optical sensor, reflectance from the tooth of light from the second light source; (v) comparing (360) the measured transmission to the measured reflectance; and (vi) determining (370), based at least in part on said comparison, whether a caries is present in the tooth.

A method (300) for detecting one or more caries using an imaging device (10), the method including the steps of: (i) directing (320) light from a first light source (12) toward a tooth (40); (ii) measuring (340), with an optical sensor (16), transmission of light from the first light source through the tooth; (iii) directing (330) light from a second light source (14) toward the tooth, wherein the second light source directs light at the tooth at a different angle relative to the first light source; (iv) measuring (350), with the optical sensor, reflectance from the tooth of light from the second light source; (v) comparing (360) the measured transmission to the measured reflectance; and (vi) determining (370), based at least in part on said comparison, whether a caries is present in the tooth.

The present disclosure provides methods, computing device readable medium, devices, and systems that utilize a cheek retractor and/or a mobile device holder for case assessment and/or dental treatments. One cheek retractor includes a first and a second lip holder, both including imaging markers of a predetermined size to determine a scale of teeth of a user, where each imaging marker is located a predefined distance from the remaining imaging markers, and where the lip holder is to hold a cheek away from a mouth of a user to expose teeth of the user. A mobile device holder can include elements to receive a mobile device to capture images of the patient's teeth.