Abstract: A dental template for positioning an object on teeth of a patient and method for fabricating the same. The method includes creating a digital model of the patient's teeth, creating a simplified template model based on the digital model, and fabricating the dental template based on the simplified template model. The template model is simplified by removing certain features of the patient's tooth anatomy. The dental template can be located on a patient's teeth using four or fewer positioning teeth.
Abstract: A dental template formed of an ultraviolet light-blocking or chemical cure inhibition material configured to restrict the curing of excess adhesive flash during the bonding of orthodontic devices to teeth. The dental template is configured to be positioned over a patient's teeth to guide placement of brackets on the teeth. The brackets are secured to the teeth using adhesive, which is cured by exposure to ultraviolet light or chemically cured. The dental template at least partially blocks ultraviolet light or restricts the chemical cure process from fully curing the adhesive underneath the template so that any exposed adhesive “flash” underneath the template can be easily cleaned after the template is removed from the teeth. The adhesive securing the brackets to the teeth can be fully cured after the “flash” is cleaned.
Abstract: The present invention relates to systems and methods for detecting deviations from an orthodontic treatment plan. One method includes receiving a tracking model, performing a matching step between individual teeth in a plan model and the tracking model, comparing the tracking model with the plan model, and detecting one or more positional differences.
Abstract: A method for bite-setting computer models of teeth on a first jaw and a second jaw includes determining an initial position of the first jaw; and determining an optimal bite based on the initial position of the first jaw.
Abstract: Orthodontic systems and related methods are disclosed for designing and providing improved or more effective tooth moving systems for eliciting a desired tooth movement and/or repositioning teeth into a desired arrangement. Methods and orthodontic systems of the invention include tooth attachments having improved or optimized parameters selected or modified for more optimal and/or effective application of forces for a desired/selected orthodontic movement. Attachments of the present invention can be customized to a particular patient (e.g., patient-customized), a particular movement, and/or a sub-group or sub-set of patients, and configured to engage an orthodontic tooth positioning appliance worn by a patient, where engagement between the attachment and orthodontic appliance results in application of a repositioning force or series/system of forces to the tooth having the attachment and will generally elicit a tooth movement.
Type:
Application
Filed:
November 20, 2009
Publication date:
June 3, 2010
Applicant:
Align Technology, Inc.
Inventors:
John Morton, Vadim Matov, Heng Cao, Ryan Kimura, Jihua Cheng, Bastien Pesenti
Abstract: The present invention relates to orthodontic positioning appliances that represent teeth in desired positions and related systems and methods. An appliance can include teeth receiving cavities shaped to receive and apply a resilient positioning force to a patient's teeth. An appliance can include an outer component having a surface representing teeth in desired positions. An outer component can be integral with an appliance. An outer component can be separate and configured to couple with an appliance main body.
Abstract: The present invention provides protective repositioning appliances, accommodating mouth guards, and covering guards that protect an orthodontic patient against impact-induced injuries, as well as related systems and methods. A protective appliance can include teeth receiving cavities shaped to receive and reposition a patient's teeth and can include an occlusal portion having an impact-absorbing compliance. An accommodating mouth guard can include teeth receiving cavities shaped to accommodate a patient's teeth from a first arrangement to a second arrangement and can include an occlusal portion having an impact-absorbing compliance. A covering guard can include a guard segment that covers at least a portion of an appliance. The combination of a guard segment and an appliance can provide an occlusal compliance that absorbs impacts.
Abstract: In accordance with various aspects of the present invention, a system and method for automated generating of a cutting curve on a surface is provided. In accordance with an exemplary embodiment, a computer-implemented method for automated generating of a cutting curve on a gingival surface to facilitate cutting of an aligner material comprises the defining of initial gingival curves along the line around a tooth (LAT) on a patient's jaw, including within an interproximal area between teeth. The initial gingival curves are replaced with a modified, dynamic cutting curve comprising an offset adjustment configured to minimize weakening of a region of the aligner material within the interproximal area. This process for generating a modified, dynamic cutting curve within an interproximal area can be suitably applied or continued for each of other the teeth and interproximal areas between those teeth to define a complete dynamic cutting curve.
Type:
Grant
Filed:
October 20, 2006
Date of Patent:
May 4, 2010
Assignee:
Align Technology, Inc.
Inventors:
Qinghui Peter Lu, Dmitry Sultanov, Pavel Agapov, Artem Borovinsklh, Maneesh Dhagat, Craig E. Farren, James C. Culp
Abstract: In particular embodiments, method, apparatus and system for generating a doctor profile based on one or more parameters associated with the doctor treatment information, generating a patient dental profile based at least in part on a weighting of a plurality of orthodontic-related treatment parameters, and providing one or more doctor referrals based on the generated doctor profile and the generated orthodontic patient profile are provided.
Abstract: Method and apparatus including obtaining digital representations of two or more dental appliances, determining a common base coordinate parameter for the two or more dental appliances, orientating the respective digital representations of the two or more dental appliances in accordance with the common base coordinate parameter, aligning the digital representations of the two or more dental appliances based on one or more characteristics associated with each of the two or more dental appliances, and storing the digital representations of the two or more dental appliances oriented to based on the common base coordinate parameter are disclosed.
Abstract: In accordance with various aspects of the present invention, system and method for modeling and application of interproximal reduction (IPR) of teeth to facilitate orthodontic treatment is provided. In accordance with an exemplary embodiment, a system and method for modeling and application of IPR are configured within a treatment methodology that initially determines whether stripping is needed for two neighboring teeth. If stripping is necessary, the exemplary method for modeling and application of IPR is conducted. In an exemplary embodiment, a stripping plane or other surface is constructed to determine the amount and region of stripping for two neighboring teeth, in other words, the volume to be removed between two neighboring teeth. After stripping of the tooth, the tooth geometry can be reconstructed to enable application of the IPR tooth model, such as enabling the clinician to utilize the IPR tooth model for teeth movement planning.
Abstract: A method and a system for forming a polymeric resin mold for molding plastic items, wherein the method includes: (a) using a rapid-prototyping process to create a polymeric resin shell having a configuration in the form of the mold; (b) introducing a reinforcing material into the shell; and (c) curing the shell. The system includes a rapid-prototyping apparatus that creates a plurality of the polymeric resin shells on a platform; a reinforcing material introduction apparatus that introduces a reinforcing material into each of the shells while the shells are on the platform to form a plurality of uncured molds on the platform; and a curing apparatus that cures the shells while they are on the platform.
Abstract: The present invention relates to orthodontic positioning appliances and related methods. An appliance in accordance with the present invention has teeth receiving cavities shaped to receive and apply a resilient positioning force to the patient's teeth. At least one of the cavities of the appliance includes a portion shaped to compensate for non-elastic deformation due to use of the appliance.
Abstract: A dental treatment planning system includes an input form to receive one or more dental patient inputs; and an engine adapted to receive the dental patient data from the input form and validating the dental patient data in a predetermined sequence.
Abstract: A dental template to position an object on a patient's tooth includes digitizing the patient's tooth; adding virtual objects to predetermined three-dimensional positions on the digitized tooth; and fabricating the dental template to locate the object at the predetermined 3D position on the patient's tooth. The template can be used for etching or for positioning brackets on teeth.
Abstract: The present invention provides systems and methods for providing dental appliances, particularly orthodontic appliances, to a patient wherein the patient is easily able to determine the order or sequence in which the appliances should be worn. Typically the appliances are to be worn in a particular sequence to provide desired treatment, such as a progressive movement of teeth through a variety of arrangements to a final desired arrangement.
Abstract: Methods of making a removable dental positioning appliance include forming a sheet of transparent crystalline polymeric material into a shell having cavities shaped to receive and reposition teeth from a first orientation to a successive orientation. The polymeric material may then be annealed at a temperature above its glass transition temperature or cured if a curable material to enhance characteristics of the polymeric material. The polymeric material may be coated with a second transparent material.
Abstract: Systems and methods are disclosed for moving teeth by moving a first tooth; and moving a second tooth while isolating the first tooth at a rest position.
Abstract: Mass-customized parts are identified by encoding part identification information into a multi-dimensional bar code, wherein mass-customization machinery, such as stereolithography apparatus, is used to make the parts with the multi-dimensional bar code embedded therein.
Type:
Grant
Filed:
March 16, 2007
Date of Patent:
November 3, 2009
Assignee:
Align Technology, Inc.
Inventors:
James C. Culp, Kwan Ho, Shiva Prasad Sambu, Srinivas Kaza, Craig E. Farren, Samuel J. Kass, Sergey Nikolsky
Abstract: In the processing of mass-produced items that include a three-dimensional code formed therein, a system is provided for automating certain post-manufacturing processing steps. The system includes a printing mechanism that applies ink to the three-dimensional code to form an optically-readable code; a code-reading mechanism that reads the optically readable code and transmits a signal indicative of the code to a database that may be employed for tracking the processed items; and a transport mechanism that moves the items from the printing mechanism to the code-reading mechanism. In one embodiment, the system also includes a liquid agent application mechanism that applies a liquid agent to the items after the optically-readable code is formed. The transport mechanism includes a plurality of pallets on which the items are placed for processing, and that is operable to move the pallets sequentially to the several processing mechanisms.
Type:
Grant
Filed:
December 28, 2006
Date of Patent:
October 20, 2009
Assignee:
Align Technology, Inc.
Inventors:
James C. Culp, Craig E. Farren, Steven Shifman