A computer-implemented method for monitoring teeth position during treatment includes segmenting three-dimensional dental X-ray image data of teeth in a first treatment state and segmenting optical-scan (OS) image data of the teeth in a second treatment state. The position and orientation of each segmented X-ray crown is compared with the position and orientation of each segmented OS crown to determine any relative position differences and any relative orientation differences. Each segmented X-ray root is repositioned and/or reoriented according to the relative position differences and/or any relative orientation differences, if any, between the corresponding segmented OS and X-ray crowns. The OS crown and the X-ray root are then fused so simulate the roots in the second treatment state without exposing the patient to additional radiation.

A system comprises an image capture device, an augmented reality (AR) display to display, and a processing device. The processing deice receives image data of a dental arch from the image capture device and processes the image data using a plurality of detection rules, where each detection rule detects one or more dental conditions. The processing device determines a dental condition for the dental arch based on the processing, determines a position of an area of interest on the dental arch, wherein the area of interest is associated with the dental condition, generates a visual overlay comprising an indication of the dental condition at the position of the area of interest, and outputs the visual overlay to the AR display, wherein the visual overlay is superimposed over a view of the dental arch on the AR display at the position of the area of interest.

Orthodontic positioning devices, and related methods and systems, are disclosed for use with one or more orthodontic elastic members. The disclosed methods may comprise determining the geometries for a pair of orthodontic aligners for use as part of an orthodontic treatment plan. The geometries for the pair of orthodontic aligners may include an upper aligner with a first marking and a lower aligner with a second marking. The first marking may correspond to a position of a first hook, and the second marking may correspond to a position of a second hook. The first hook and the second hook may be configured to engage with an orthodontic elastic member so as to react a force to, for example, generate orthodontic forces on the patient’s teeth.

Disclosed are methods and digital tools for deriving tooth condition information for a patient’s teeth, for populating a digital dental chart with derived tooth condition information, and for generating an electronic data record containing such information.

A normal vector or a curvature at each of a plurality of vertexes that are included in data relating to an oral cavity shape including a tooth crown shape of at least one tooth and define the oral cavity shape is acquired. Then, a vertex group that defines the tooth crown shape of the at least one tooth is extracted from the plurality of vertexes based on the acquired normal vectors or curvatures. Further, the extracted vertex group is outputted as tooth crown shape information that specifies a tooth crown portion in the oral cavity shape. Consequently, automatic construction of a database for a tooth crown shape can be implemented.

A reference member for determining a position of an implant analog can comprise a trapezoidal body including a first side and a substantially parallel second side. The first side can define a first dimension and the second side can define a second dimension that is greater than the first dimension.

A method of repairing an oral defect model includes performing a three-dimensional oral defect model obtaining step, a defect cutting line detecting step, a defect point selecting step and a smoothing step. The three-dimensional oral defect model obtaining step is performed to scan an oral cavity to obtain a three-dimensional oral defect model message. The defect cutting line detecting step is performed to detect a defect cutting line of the three-dimension oral defect model message, and drive a displayer to display the defect cutting line. The defect point selecting step is performed to select at least one defect feature point of the defect cutting line via the displayer. The smoothing step is performed to perform a smoothing process at the at least one defect feature point, and convert the three-dimensional oral defect model message into a three-dimensional oral repaired model message to smooth the defect cutting line.

According to embodiments of the disclosed subject matter, a server can include processing circuitry configured to receive a virtual modeling file encoded with an orthodontic treatment plan such that the encoded information of the virtual modeling file format allows all steps of the orthodontic treatment plan to be displayed without a separate file for each treatment step. Additionally, the processing circuitry can be configured to download a first treatment step of the virtual modeling file format, receive gingiva and teeth geometries corresponding to the first treatment step, and display the first treatment step. Further, a selected treatment step can be displayed based on information encoded into the orthodontic virtual modeling file format.

A method of providing a dental mouthpiece comprises: an oral cavity shape acquisition step for acquiring the shape of the oral cavity; a design requirement specification step of receiving a selected range and an amount of a medicine as design requirements; and a design step for outputting design on the basis of the shape of the oral cavity and the range and amount of application of the medicine, design data of a dental mouthpiece that is provided with a space for the medicine and is able to retain the above-mentioned amount of the medicine in the application range.

Orthodontic positioning devices, and related methods and systems, are disclosed for use with one or more orthodontic elastic members. The disclosed devices are configured to couple with an orthodontic elastic member so as to react a force from the elastic member into the appliance to, for example, generate traction forces on the patient's teeth to produce a desired occlusion. A positioning device includes a patient removable tooth positioning appliance having teeth receiving cavities shaped to receive and apply a resilient positioning force to a patient's teeth. The appliance includes a hook configured to interface with an orthodontic elastic member. The hook can be configured to be offset from a surface of a tooth when the appliance is coupled with the patient's teeth and no elastic member is coupled with the tooth. The hook can be curved so that the hook is more retentive on the aligner. The hook can be reinforced so that the reinforcement resists deformation when the elastic is in place.