An orthodontic bracket having a bracket pad (2), and a bracket body (1) extending from the bracket pad. The bracket has a slot (4) for receiving an orthodontic archwire. The slot has a proximal slot side face (4a), a distal side face (4b) and a slot ground face (4c). The bracket has at least one archwire support structure (5a, 5b) that forms a support surface (6a, 6b) in a plane of the slot ground face. The support surface is spaced from the slot ground face. The archwire support structure forms a flat and protrudes in a dimention generally parallel to a slot cross axis. The invention help maximizing the tip control in an orthodontic treatment.

A method of manufacturing pre-formed, customized, ceramic, labial/lingual orthodontic clear aligner attachments (CCAA) by additive manufacturing (AM) may comprise measuring dentition data of a profile of teeth of a patient, based on the dentition data, creating a three dimensional computer-assisted design (3D CAD) model of the patient's teeth using reverse engineering, and saving the 3D CAD model, designing a 3D CAD structure model for one or more CCAA on various parts of each tooth, importing data related to the 3D CAD CCAA structure model into an AM machine, directly producing the CCAA in the ceramic slurry-based AM machine by layer manufacturing, enabling the provider to deliver patient-specific CCAA's by an indirect bonding method to the patient's teeth to improve the efficacy and retention of the clear aligners.

An orthodontic bracket extension system for orthodontic braces, the orthodontic bracket extension system including a plurality of bracket base extensions each having an aperture in which a corresponding one of a plurality of bracket base can be disposed to increase a bracket bonding surface area for greater securement of each of the plurality of brackets to each of a corresponding plurality of teeth.

The invention relates to a bracket for correcting the position of a tooth, comprising a bracket base of a bracket body, which bracket base can be fastened to a tooth, and which bracket body has a slot, extending in the mesiodistal direction, and also a fourth slot portion that narrows by a predetermined amount () in a predetermined region, so as preferably to form a snug fit for an inserted archwire, wherein the fourth slot portion is designed running in the longitudinal direction substantially parallel to the bracket base.

An orthodontic bracket is provided including a hollow housing defining a cavity and having windows for accessing the cavity to allow an archwire to pass through the housing. One or more, and preferably at least two sets of rollers are provided within the hollow housing for reducing the friction on the archwire as it passes through the windows and the cavity of the housing. The orthodontic bracket preferably includes a first set of rollers located adjacent a first or entrance window and a second set of rollers located adjacent a second or exit window. Guide blocks are provided between the sets of rollers to prevent the archwire from kinking or binding within the housing. A mounting block or mesh pad is provided on a rear of the housing to attach the housing to a tooth and a cover is provided on a front of the housing to secure the sets of rollers within the housing. An external hook may be provided on the housing for attaching rubber bands or other tensioning devices to the orthodontic bracket.

A method of manufacturing pre-formed, customized, ceramic, labial/lingual orthodontic clear aligner attachments (CCAA) by additive manufacturing (AM) may comprise measuring dentition data of a profile of teeth of a patient, based on the dentition data, creating a three dimensional computer-assisted design (3D CAD) model of the patient's teeth using reverse engineering, and saving the 3D CAD model, designing a 3D CAD structure model for one or more CCAA on various parts of each tooth, importing data related to the 3D CAD CCAA structure model into an AM machine, directly producing the CCAA in the ceramic slurry-based AM machine by layer manufacturing, enabling the provider to deliver patient-specific CCAA's by an indirect bonding method to the patient's teeth to improve the efficacy and retention of the clear aligners.

An orthodontic bracket that forms a slot for receiving an archwire. The slot extends through the orthodontic bracket along an archwire axis. The slot is delimited in directions radially of the archwire axis by a slot base surface, an opposite slot cover surface and two opposite slot side surfaces. Further, the slot has an open side that is provided by a gap within one of the slot side surfaces in a dimension along the archwire axis.

Various embodiments of an orthodontic appliance and method of forming such appliance are disclosed. In one or more embodiments, the orthodontic appliance can include an arch member including an arch member body and an arch member coupling connected to the body. The orthodontic appliance can also include an anchor including an anchor coupling and a base adapted to connect the anchor to a surface of a tooth. The arch member coupling can be releasably connectable to the anchor coupling, and the anchor can be adapted for displacement relative to the arch member body when the anchor is connected to the surface of the tooth and the arch member coupling is connected to the anchor coupling.

In an embodiment, a method of manufacturing customized ceramic labial/lingual orthodontic brackets by additive manufacturing may comprise measuring dentition data of a profile of teeth of a patient, based on the dentition data, creating a three-dimensional computer-assisted design (3D CAD) model of the patient's teeth, and saving the 3D CAD model, designing a virtual 3D CAD bracket structure model for a single labial or lingual bracket structure based upon said 3D CAD model, importing data related to the 3D CAD bracket structure model into an additive manufacturing machine, and directly producing the bracket with the additive manufacturing machine by layer manufacturing from an inorganic material including at least one of a ceramic, a polymer-derived ceramic, and a polymer-derived metal.

A device and method for performing orthodontic decompensation before orthognathic surgery without the aid of braces. The device includes an archwire coupled at either end to a band which is in turn adhered to the first molars of a patient. Disposed along the length of the archwire is a plurality of fixtures which may include a plurality of hooks that work in conjunction with elastics or other components used during the orthognathic procedure. The archwire is formed around the patient's teeth so as to be passive and maintain the patient's current orthodontic treatment progress. The device may be placed on either or both of the upper and lower teeth of the patient before the orthognathic procedure thereby ensuring that the teeth will not move during or after the surgery during the recovery process and that required surgical splints will still fit.