Guidance element for a tooth for interacting with an orthodontic treatment splint, the guidance element having a tooth connection surface as well as at least one engagement surface for engagement in the treatment splint in order to exert orthodontic torques and/or forces onto the tooth during the engagement, and having at least one slot for reception of an orthodontic treatment arch.

An orthodontic bracket apparatus and method for treating a malocclusion includes a bracket base having an angulated posterior facing surface and which is matingly and releasably positioned adjacent to an anterior facing surface of a patient's tooth; a multiplicity of bracket bodies releasably and adjustably engageable with the bracket base; and an arch wire simultaneously engageable within an arch wire slot defined in each of the bracket bodies to exert first, second and third order movements to the maloccluded tooth; and wherein the bracket base remains affixed to the patient's tooth throughout the multiple step orthodontic treatment regimen selected by the treating clinician.

The present disclosure is directed, at least in part, to a self ligating orthodontic bracket having a rotatable member for securing an archwire within a slot of the bracket. Embodiments of the orthodontic bracket disclosed herein include a bracket body containing the archwire slot as well as tie wings for attaching various orthodontic devices (e.g., elastomeric bands) to the bracket. The rotatable member is rotatable in a first direction (e.g., counter clockwise) relative to a body of the bracket for securing or locking the archwire within the slot, and for rotating in an opposite direction (e.g., a clockwise direction) relative to the bracket body for unsecuring or unlocking the archwire so that it is substantially unrestrained from exiting the slot.

An orthodontic bracket is disclosed having three archwire retention channels in the mesial-distal directions, a central channel and two side channels. The two side channels each include a pair of spaced apart inverted archwire retaining regions having a recess that opens generally towards the bracket base. Each such recess is for grasping or holding an archwire therein. Other aspects are directed to a self ligating orthodontic bracket system that includes a rotatable member for securing an archwire within a slot of a bracket; embodiments that include an orthodontic appliance and method of producing and using the same, and preferably employed in a lingual orthodontic system, that includes friction reducing features between an interior of an archwire slot portion of the appliance and an archwire placed within the archwire slot.

The present invention is directed to indirect bonding orthodontic brackets to a patient's teeth. A geometric index pin is attached to the orthodontic bracket enabling the orthodontic bracket to be precisely held by a plastic tray. A computer program positions the index pin/bracket combination for a patient's teeth in a determined position and designs the tray to carry each bracket to the patient's tooth in its computer selected position. The index pin eliminates the necessity for the tray material to enclose the bracket which results in a dental tray one third the normal dental tray which saves tray material and reduces the print time of the tray. The ease of removal of the tray from the teeth after placement of the brackets is enhanced by clipping the index pins with a pin cutter.

An orthodontic bracket is disclosed having three archwire retention channels in the mesial-distal directions, a central channel and two side channels. The two side channels each include a pair of spaced apart inverted archwire retaining regions having a recess that opens generally towards the bracket base. Each such recess is for grasping or holding an archwire therein. Other aspects are directed to a self ligating orthodontic bracket system that includes a rotatable member for securing an archwire within a slot of a bracket; embodiments that include an orthodontic appliance and method of producing and using the same, and preferably employed in a lingual orthodontic system, that includes friction reducing features between an interior of an archwire slot portion of the appliance and an archwire placed within the archwire slot.

An orthodontic bracket is disclosed having three archwire retention channels in the mesial-distal directions, a central channel and two side channels. The two side channels each include a pair of spaced apart inverted archwire retaining regions having a recess that opens generally towards the bracket base. Each such recess is for grasping or holding an archwire therein. Each of the side channels has an archwire retaining ridge extending gingivally-occlusally along the adjacent side of the bracket base between the two retaining regions of the channel. For each channel, its retaining ridge exerts a force on a portion of an archwire facing away from the archwire portion residing in the recesses of the retaining regions of the channel. The force on the archwire is directed toward the interiors of the recesses of the retaining regions for assisting in seating the archwire in the recesses.

An improved edgewise orthodontic bracket is disclosed. In one embodiment, a bracket comprises a single pair of opposing T-shaped tie wings which define an archwire slot therebetween. Notches are provided on each of the mesial and distal sides of the center leg of each T-shaped tie wing for selectively receiving a ligating device. The notches are defined in the gingival/occlusal edges of the tie wings and comprise sloped portions that extend labially towards the archwire slot. Convex sidewall portions and convex floor portions are provided in the archwire slot adjacent to the notches. The body of the bracket is interconnected to a base that includes a continuous series of characters that serve as texturing to facilitate bonding of the bracket with a tooth. A discontinuous perimeter rail may be used at the edge of the base. A method for forming a bracket is also provided.

An orthodontic bracket and an orthodontic assembly are provided. The orthodontic bracket includes a bottom base, a first sidewall, a second sidewall and two blocks. The bottom base has a first surface and a second surface opposite to each other. The first sidewall is disposed on the first surface. The second sidewall is disposed on the first surface and is opposite to the first sidewall. The blocks are disposed on the first surface between the first sidewall and the second sidewall. A bending space is defined and formed between the blocks, a first path is defined and formed between the first sidewall and the blocks, and a second path is defined and formed between the second sidewall and the blocks. An orthodontic wire is configured to be disposed in the first path or the second path, or to extend through the first path, the bending space and the second path.

The present disclosure is directed, at least in part, to a self ligating orthodontic bracket system that includes a rotatable member for securing an archwire within a slot of a bracket. Embodiments of the orthodontic bracket system disclosed herein include a bracket body containing the archwire slot as well as tie wings for attaching various orthodontic devices (e.g., elastomeric bands) to the bracket. The rotatable member is rotatable in a first direction (e.g., counter clockwise) relative to a body of the bracket for securing or locking the archwire within the slot, and for rotating in an opposite direction (e.g., a clockwise direction) relative to the bracket body for unsecuring or unlocking the archwire so that it is substantially unrestrained from exiting the slot. Other embodiments include an orthodontic appliance and method of producing and using the same, and preferably employed in a lingual orthodontic system, that includes friction reducing features between an interior of an archwire slot portion of the appliance and an archwire placed within the archwire slot.