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.

A dental apparatus for achieving molar distalization, comprising a bracket for mounting on opposing molar teeth of a dental arch, and a dental arch wire. One end of the arch wire passes through one of a first bracket and the other end of the arch wire passes through the other of a second bracket. A worm gear adjustably fixes the position of each end of the arch wire within the bracket.

The present disclosure provides self-ligating orthodontic brackets with improved control over access to the archwire slot. Access to the archwire slot is controlled by a latch assembly featuring a door rotatable about an axis relative to the bracket body and a lock positioned near the axis to prevent inadvertent rotation of the door. The lock engages a surface of the door and is capable of preventing undesired rotation between an open state, where an archwire is insertable into the archwire slot, and a closed state, where access to the slot is prohibited. The self-ligating brackets may also include a biasing spring to provide active ligation and further inhibit undesired rotation of the door.

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.

An orthodontic bracket for coupling an archwire with a tooth includes a bracket body, a hinge pin, and a latch. The bracket body includes a first surface configured to be mounted to the tooth and an archwire slot in a second surface. The hinge pin includes a first shaft portion coupled with the bracket body. The latch is coupled to the bracket body by a second shaft portion of the hinge pin. The latch is movable between an opened position and a closed position. A cross-sectional profile of the first shaft portion and/or the second shaft portion of the hinge pin is configured to elastically deform to impart a spring bias to the latch that opposes movement of the latch relative to the bracket body.

A kit for an orthopedic bracket, which includes at least a base plate and a flap that can be pivoted over the base plate, to which flap a directly or indirectly guided wire bow can be fastened. For a treatment of a new type, a kit has base plates and flaps differing in size and shape from a selection. Base plates and flaps are produced from sheet metal by bending and punching. The two parts can be connected to each other without a shaft by being pivoted in relation to each other.

An improved edgewise orthodontic bracket is disclosed. In one embodiment, a bracket has 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 may 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.

An orthodontic post and pin system for secure attachment of a dental appliance to an alignment wire, which also facilitates quick and easy removal and replacement. The system described herein uses a twist-lock dental post that is rotated onto, and counter-rotated off of, an alignment wire. The dental post includes structural elements to facilitate the twist-lock functionality, as well as structures for accepting a fastener to secure the alignment wire in place and inhibit unintentional or undesired dislodging.

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.

The present invention employs a self-ligating orthodontic bracket comprising a body having a pair of laterally spaced gingival tie wings and a pair of laterally spaced occlusal tie wings, the gingival and occlusal tie wings projecting from a labial surface of the body; an arch wire slot extending mesially-distally across the body and between the gingival and occlusal tie wings to accommodate an arch wire; a free-sliding, controlled-locking, or pivoting clip wherein the clip allows placement and removal of the arch wire when in the open position and prevents the displacement of the arch wire from the bracket member when in the closed position.