A method of manufacturing customized ceramic labial/lingual orthodontic brackets by digital light processing, said method comprises measuring dentition data of a profile of teeth of a patient, wherein measuring dentition data is performed using a CT scanner or intra-oral scanner, 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 on a computer, designing a 3D CAD bracket structure model for a single labial or lingual bracket structure, importing the 3D CAD bracket structure model into a Digital Light Processing (DLP) machine, directly producing the bracket by layer manufacturing.

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.

Adjustable-prescription orthodontic bracket assemblies. The orthodontic bracket assemblies include a bracket body, an arcuate core, and a retention structure. The bracket body defines an arcuate receptacle that extends toward a base of the bracket body from a top of the bracket body. The arcuate core is received within the arcuate receptacle and defines an archwire slot. The arcuate receptacle is shaped to retain the arcuate core therein and to permit rotation of the arcuate core therein. The retention structure is configured to selectively retain the arcuate core at a selected rotational orientation with the bracket body. The retention structure is configured to selectively transition between a disengaged configuration, in which the retention structure permits rotation of the arcuate core relative to the bracket body, and an engaged configuration, in which the retention structure retains the arcuate core at the selected rotational orientation.

A pocket orthodontic bonding pad for attaching orthodontic attachments to teeth wherein the orthodontic attachment is mechanically secured within a bonding pad pocket with a design that allows a slight buffering flexibility under masticatory stress and ease of removal of the orthodontic attachment. Upon removal of locking tabs the orthodontic attachment may be removed with minimal force, and the remaining bonding pad polished from the teeth with ease, which is most advantageous for brackets that tend to break upon removal and create high stress forces upon tooth structure. The ease of removing orthodontic attachments allows maximum bonding strengths.

A pocket orthodontic bonding pad for attaching orthodontic attachments to teeth wherein the orthodontic attachment is mechanically secured within a bonding pad pocket with a design that allows a slight buffering flexibility under masticatory stress and ease of removal of the orthodontic attachment. Upon removal of locking tabs the orthodontic attachment may be removed with minimal force, and the remaining bonding pad polished from the teeth with ease, which is most advantageous for brackets that tend to break upon removal and create high stress forces upon tooth structure. The ease of removing orthodontic attachments allows maximum bonding strengths.

A pocket orthodontic bonding pad for attaching orthodontic attachments to teeth wherein the orthodontic attachment is mechanically secured within a bonding pad pocket with a design that allows a slight buffering flexibility under masticatory stress and ease of removal of the orthodontic attachment. Upon removal of locking tabs the orthodontic attachment may be removed with minimal force, and the remaining bonding pad polished from the teeth with ease, which is most advantageous for brackets that tend to break upon removal and create high stress forces upon tooth structure. The ease of removing orthodontic attachments allows maximum bonding strengths.

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.

Orthodontic bracket assemblies with torque-adjusting drums. The drum defines at least a majority of the archwire slot of the corresponding bracket assembly, and the drum may be selectively rotated about its longitudinal axis to adjust the prescriptive force that is applied to a patient's tooth during orthodontic use of the bracket assembly. The bracket assembly includes a positioning assembly that selectively retains the drum in a selected orientation relative to the base of the bracket assembly, thereby defining a prescription to be imparted by the bracket assembly to a patient's tooth. In some embodiments, the bracket assembly includes a biasing mechanism that selectively urges the positioning assembly to a position in which the drum is, or is not, retained in a selected position. In some embodiments, the bracket includes a release mechanism that selectively disengages the positioning assembly to permit adjustment of the drum.

A orthodontic braces assembly includes a plurality of first clamps. Each of the first clamps is attached to a front surface of an associated one of a plurality of a user's teeth. A plurality of second clamps is provided. Each of the second clamps is removably coupled to an associated one of the first clamps. Each of the second clamps engages a wire thereby facilitating the wire to be extended along the plurality of teeth. Each of the second clamps is removed from the associated first clamp thereby facilitating the teeth to be cleaned.

A orthodontic braces assembly includes a plurality of first clamps. Each of the first clamps is attached to a front surface of an associated one of a plurality of a user's teeth. A plurality of second clamps is provided. Each of the second clamps is removably coupled to an associated one of the first clamps. Each of the second clamps engages a wire thereby facilitating the wire to be extended along the plurality of teeth. Each of the second clamps is removed from the associated first clamp thereby facilitating the teeth to be cleaned.