A set of self-ligating brackets for orthodontics includes brackets having a base and a block arranged on the base. An occlusal wall extends from the block and has at least one occlusal ligature wing. A gingival wall extends from the block and has at least one gingival ligature wing. A slot, which separates the occlusal wall and the gingival wall from one another, has the same minimum clear width for the brackets of the set and extends continuously in a direction from mesial to distal. The slot also has a base area on which an archwire lies during orthodontic treatment. A passage extends in the gingival-occlusal direction through the block and is delimited by a lingually located surface and by a labially located surface. Resilient clips with a labial leg and with a lingual leg are interconnected by an occlusally arranged portion.

Systems and methods of repositioning teeth, using one or more appliances for installing on a patient's teeth are described. The appliance includes an arch shaped member; a plurality of spring members coupled to or provided on the arch shaped member; and a plurality of securing members for securing to a corresponding plurality of the patient's teeth on a one-to-one basis, the securing members being supported by the arch shaped member. The arch shaped member and the plurality of springs, together, comprise a two dimensional structure having a length dimension and a width dimension with varying widths along the length dimension, that is bent into a three dimensional structure.

In some embodiments, apparatuses, and methods are provided herein pertaining to orthodontic devices. In some embodiments, a hybrid attachment for orthodontic use comprises a body, wherein the body comprises an archwire slot, wherein the archwire slot is configured to receive an archwire, a bonding surface, wherein the bonding surface is configured to bond to a facial surface of a patient's tooth via an adhesive, and wherein the bonding surface is located on a first side of the body, and a facial surface, wherein the facial surface has a nonnegative draft normal to the facial surface of the patient's tooth, wherein the facial surface is configured to releasably retain a removable orthodontic aligner, and wherein the facial surface is located on a second side of the body.

An orthodontic device has a main structure that includes an orthodontic body including a base portion, a support trough portion, and a joining portion and also includes a positioning engagement slot formed on the orthodontic body and located between the base portion and the joining portion, two guiding slopes formed on side walls of the positioning engagement slot, a closing portion formed at an end of the positioning engagement slot and connecting the guiding slopes, an elastic cover body movably arranged on the orthodontic body, and two elastic clips extended from and formed on an end of the elastic cover body. The elastic cover body is arranged to shield and cover the support trough portion of the orthodontic body and the elastic clips formed at an end thereof are insertable into the positioning engagement slot as being positioned by the guiding slopes.

An orthodontic device can include a bracket configured to support an orthodontic wire. The orthodontic device can include a locking assembly coupled to the bracket and switchable between a plurality of operational modes. The plurality of operational modes can comprise a first sliding mode in which the orthodontic wire is slidable relative to the bracket and a second locked mode in which the orthodontic wire is slidably locked relative to the bracket.

A passive self-ligation bracket system for correcting malocclusions and tooth alignment, provides a first passive self-ligation bracket and a second passive self-ligation bracket, each of the first passive self-ligation bracket and the second passive self-ligation bracket having, a bracket body with a facial end portion, an opposing lingual end portion carrying a bracket base pad configured for adherence to a tooth, and a mid-body portion, a movable door engaged with the bracket body at the facial end portion, and means for exerting a predetermined torque on a tooth from the lingual end portion and from the mid-body portion, and the means for exerting the predetermined torque is defined in the mid-body portion, and has a center; and an archwire simultaneously slidably engaged within the means of the first and second passive self-ligation brackets exerts the predetermined torque.

A self-ligating orthodontic bracket has a bonding base adapted for attachment to the crown of a tooth. A body member is attached to the front surface of the base and extends forwardly to a front face. The base defines a torque angle with respect to the front face of the body. Gingival and occlusal projections extend forwardly from the body member. The projections have archwire slot surfaces which, together with a portion of the body member's front face, define an archwire slot. First and second channels defined in the projections are coplanar and are disposed at an angle to the front face of the body member that is substantially equal to the torque angle. A door is disposed in one of the first and second channels. The door is movable between an open position and a closed position to selectably provide or prevent access to and from the archwire slot.

An archwire for use with a passive self-ligation orthodontic bracket is described and which includes a resilient main body which is received in the archwire slot, and which further has a predetermined width dimension, and a variable thickness dimension, and wherein the variable thickness dimension of the archwire can be varied so as to facilitate an adjustable application of a force to the passive self-ligation orthodontic bracket so as to achieve a clinician selectable and controllable second and third order movement of a patient's tooth.

A self-locking orthodontic bracket includes a bracket body having a first surface and an arch-wire slot disposed on the first surface, a sliding cover matched with the bracket body and comprising a second surface towards the first surface, and a deformable locking element configured for locking the sliding cover on the bracket body. A positioning groove is disposed on the second surface. The first surface includes a guiding surface, and the second surface is slidably engaged with the guiding surface. A sinking groove is disposed on the guiding surface, and a bottom surface of the sinking groove is further provided with a locking groove. A lower part of the locking element is fixed in the locking groove, and an upper part of the locking element extends into the positioning groove, such that the sliding cover is slidably locked on the bracket body.

A self-ligating bracket includes a bracket body and a spring clip. The bracket body includes a mesial channel, a distal channel, a center channel, and an arch wire slot. The spring clip includes a distal arm, mesial arm, and a center arm which are moveably within the mesial channel, distal channel, and center channel between an open position and a closed position to occlude the arch wire slot.