Patent application number | Description | Published |
20100145664 | DENTAL MODELING SYSTEM AND METHOD - A method for simulating tooth movement utilizes electronic modeling to represent the teeth. Instant centers of rotation are determined and projected paths of movement are plotted. The electronic model provides improved precision and provides a method for simulating movement in three dimensions. The movement from growth and/or correction is shown with the electronic model. The simulation provides for improved correction. | 06-10-2010 |
20100169057 | DENTAL MODELING SYSTEM AND METHOD - A method for simulating tooth movement utilizes electronic modeling to represent the teeth. Instant centers of rotation are determined and projected paths of movement are plotted. The electronic model provides improved precision and provides a method for simulating movement in three dimensions. The movement from growth and/or correction is shown with the electronic model. The simulation provides for improved correction. | 07-01-2010 |
20130273491 | SYSTEM AND METHOD FOR EVALUATING ORTHODONTIC TREATMENT - A system and method for evaluating dental treatment utilizes virtual models created from scanned plaster casts. Patient's teeth are directly scanned with a three dimensional scanner or plaster casts of the patient teeth following treatment are scanned for evaluation. A planned configuration based on a plaster cast prior to treatment is created and the desired position and the two models are compared so that the actual position of the teeth may be compared to the desired position after treatment. Superimposition of the virtual models provides accurate and precise measurement of variances between the two virtual models. Difficulties due to superimposing the models, which are of the entire arch and evaluations based on individual teeth are overcome by applying an iterative closest point algorithm to correct the position and provide a truer measurement for evaluation. Differences between a preferred position of a patient's teeth and actual position of a patient's teeth may be assigned a score and the score may be compared to other patients to rank the patient needs. | 10-17-2013 |
20140106294 | MANDIBLE POSITION INDICATOR FOR ANALYZING BITE FUNCTION - A system and method for modeling bite function. A top pantograph is fixed to a patient via clutches to the top teeth of the patient, a bottom pantograph is fixed to a patient via clutches to the bottom teeth of the patient and the actual bite of the patient is optically monitored by monitoring the relation of the top pantograph to the bottom pantograph during a bite cycle and storing a hinge axis. Data is stored relating to the actual bite and the top teeth are scanned to create a top teeth model while the bottom teeth are scanned to create a bottom teeth model. A digital representation of the top pantograph is digitally fitted to the top teeth, a digital representation of the bottom pantograph bottom pantograph is digitally fitted to the bottom teeth, and the relationship of the top teeth model and the bottom teeth model to the hinge axis is recorded. A bite model is digitally created by recording the position of the top teeth model in relation to the bottom teeth model while digitally moving the bottom teeth model with respect to the top teeth model around the hinge axis. | 04-17-2014 |
20140162233 | FABRICATION OF MAXILLOFACIAL SURGICAL SPLINTS - A technique for fabricating a surgical splint for use in correcting a dental condition of a patient. The technique involves obtaining a three-dimensional digital model of lower and upper arch dentitions of the patient having the dental condition. Relative positions of the lower and upper arch dentitions are adjusted with respect to each other in the three-dimensional digital model using a computing device. A relative positioning structure is added to the three-dimensional digital model using the computing device. A physical model of the patient's corrected dentition is then generated from the three-dimensional digital model. The physical model includes the relative positioning structure that connects the lower and upper arch dentitions of the physical model at the adjusted relative position. The surgical splint is then formed using the physical model. A non-surgical splint is also described. | 06-12-2014 |
20140205964 | Dental Occlusion Analysis Tool - An electronic 3D model of at least a portion of a maxillary arch of a patient is displayed. Inputs indicating a peak of a mesiobuccal cusp of a maxillary first molar are received for both the patient's right and left sides. In addition, an electronic 3D model of at least a portion of a mandibular arch of a patient is displayed. Inputs indicating relevant points on the mandibular first molar are received for both the patient's right and left sides. Side scores are generated for the patient's right and left sides based on the indicated points. A final occlusion score for the patient is displayed. The final occlusion score is based on the side score for the right side and the side score for the left side. | 07-24-2014 |
20150072314 | MANDIBLE POSITION INDICATOR FOR ANALYZING BITE FUNCTION - A system and method for capturing movement of the mandible. A top pantograph is fixed to a patient, wherein fixing includes attaching clutches to the top teeth of the patient. A bottom pantograph is fixed to the patient, wherein fixing includes attaching clutches to the bottom teeth of the patient. Movement of the bottom pantograph relative to the top pantograph during the patient's bite cycle is monitored and a hinge axis corresponding to the patient's mandible is determined. | 03-12-2015 |
20150210014 | FABRICATION OF MAXILLOFACIAL SPLINTS - A technique for fabricating a surgical splint for use in correcting a dental condition of a patient. The technique involves obtaining a three-dimensional digital model of lower and upper arch dentitions of the patient having the dental condition. Relative positions of the lower and upper arch dentitions are adjusted with respect to each other in the three-dimensional digital model using a computing device. An electronic model of a splint is generated based on the adjusted relative positions of the lower and upper arch dentitions. A splint is then generated in a physical form from the electronic model of the splint. | 07-30-2015 |
Patent application number | Description | Published |
20090316966 | Method and apparatus for combining 3D dental scans with other 3D data sets - By matching a first data set including digital, three-dimensional, dental models with a second data set including digital, cranio-facial 3D medical scan records, missing or inaccurate portions of the cranio-facial 3D medical scan record can be improved. Example methods for matching the data sets include automatically positioning the dental model with respect to the 3D medical scan record and automatically eliminating common (i.e., overlapping) portions from one of the data sets. Two-dimensional images can be mapped onto images generated from either of the first and second data sets to enhance accuracy and/or photo-realism. | 12-24-2009 |
20100169056 | METHOD AND APPARATUS FOR ELECTRONIC DELIVERY OF ELECTRONIC MODEL IMAGES - A method, apparatus, and article of manufacture provide a distributed computing system delivering and manipulating electronic model images to end users. One aspect of the present invention includes a method for providing electronic delivery of electronic model images. The method generates one or more electronic model images, a portion of the electronic model images being generated from scanned electronic data of a physical object, stores the electronic model images within computer readable memory of a server-based computing system, delivers the electronic model images to a remote client computer over a distributed communications network, manipulates the electronic model images upon the remote client computer, and performs analysis and a course of action using the manipulated electronic model images. The electronic model images comprise in part a polygonal mesh representation of the physical object. | 07-01-2010 |
20110207074 | DENTAL IMAGING SYSTEM AND METHOD - A dental slurry is used with a digital camera to create a three dimensional model of target teeth. The dental slurry includes granular particles suspended in a pharmacologically acceptable carrier. The slurry is used to cover target teeth with a large number of particles. Overlapping digital images are taken of the target teeth and provided to a computer. An algorithm is used to find a correspondence for each feature in the overlapping digital images by error analysis. Once enough correspondences are found, the algorithm creates a three dimensional electronic model from the plurality of two dimensional images based on a best fit error analysis. | 08-25-2011 |
20130177864 | GUM TISSUE GUIDE, SYSTEMS AND METHODS OF PRODUCING AND UTILIZING THE SAME - A method, device and system for modifying the gingival margin of a patient is disclosed. A method includes obtaining an electronic model of the dentition of a patient, determining an incision path along the gingival surface based on the electronic model, generating and fabricating a guide arrangement to assist in cutting the gingival surface of the patient, mounting the guide arrangement to the dentition of the patient, and cutting the gingival surface of the patient with the assistance of the guide arrangement. A guide arrangement includes a mounting portion and a template portion coupled to the mounting portion along the gingival surface of the guide arrangement and positioned to provide a desired incision path. A system includes a three dimensional scanner, a computer system and a fabricating device. | 07-11-2013 |
20140287376 | ORTHODONTIC BRACKET PLACEMENT USING BRACKET GUIDE FEATURES - Bracket guide features and use of such features to guide placement of orthodontic brackets. | 09-25-2014 |
20140342305 | GUM TISSUE GUIDE, SYSTEMS AND METHODS OF PRODUCING AND UTILIZING THE SAME - A method, device and system for modifying the gingival margin of a patient is disclosed. A method includes obtaining an electronic model of the dentition of a patient, determining an incision path along the gingival surface based on the electronic model, generating and fabricating a guide arrangement to assist in cutting the gingival surface of the patient, mounting the guide arrangement to the dentition of the patient, and cutting the gingival surface of the patient with the assistance of the guide arrangement. A guide arrangement includes a mounting portion and a template portion coupled to the mounting portion along the gingival surface of the guide arrangement and positioned to provide a desired incision path. A system includes a three dimensional scanner, a computer system and a fabricating device. | 11-20-2014 |
20150305669 | SYSTEM FOR MEASURING TEETH MOVEMENT AND CONTACT PRESSURE - A wearable dental apparatus for capturing dental properties of a patient includes a support structure. The support structure is configured to be worn on the dentition of the patient. The wearable dental apparatus includes at least one sensor. The sensor is coupled to the support structure. The sensor is configured to capture a series of measurement of a dental property of the patient. The measurements are associated with one or more locations on the dentition of the patient. A dental map is generated based on at least some of the measurements and is displayed. The dentition of a patient is restored by selecting a restoration material based on the measurements. | 10-29-2015 |
20150305839 | SYSTEM AND METHOD FOR FABRICATING A DENTAL RESTORATION - A system for fabricating a dental restoration to restore a tooth at a restoration site in a dentition of a patient is disclosed. The dentition includes a restoration dental arch and an opposing dental arch. The restoration dental arch include the restoration site and the opposing dental arch is opposite the restoration dental arch. The system includes an impression apparatus, a motion capture apparatus, an interface apparatus, and a restoration design system. The impression apparatus is configured to capture an impression of the dentition of the patient. The motion capture apparatus is configured to capture a plurality of location data points that represent the locations of the opposing dental arch relative to the restoration dental arch. The interference model generation system is configured to generate an interference model for the restoration site. The restoration design system is for designing a restoration using the interference model. | 10-29-2015 |