Compositions and methods for inhibiting and interrupting biofilm formation, and for destabilizing established biofilms are provided, the novel compositions including polymeric resins and monomeric non-polymerizable and polymerizable resins. More particularly, the compositions and methods enable the protection and removal of biofilms from surfaces in the context of medical, consumer, domestic, food service, environmental and industrial applications, where the effects constitute beneficial and desirable biofilm attenuating activity.

Method and system for establishing an initial position of a tooth, determining a target position of the tooth in a treatment plan, calculating a movement vector associated with the tooth movement from the initial position to the target position, determining a plurality of components corresponding to the movement vector, and determining a corresponding one or more positions of a respective one or more attachment devices relative to a surface plane of the tooth such that the one or more attachment devices engages with a dental appliance are provided.

Method and system for establishing an initial position of a tooth, determining a target position of the tooth in a treatment plan, calculating a movement vector associated with the tooth movement from the initial position to the target position, determining a plurality of components corresponding to the movement vector, and determining a corresponding one or more positions of a respective one or more attachment devices relative to a surface plane of the tooth such that the one or more attachment devices engages with a dental appliance are provided.

Embodiments relate to the methodology of direct manufacture of a customized labial/lingual orthodontic tube by using a ceramic slurry-based additive manufacturing (AM) technology. For example, a method of manufacturing customized ceramic labial/lingual orthodontic tubes 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 tube structure model for a single labial or lingual tube structure based upon said 3D CAD model, importing data related to the 3D CAD tube structure model into an additive manufacturing machine, and directly producing the tube 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 method of producing a custom dental anchor application appliance may be provided. The appliance may be for mounting one or more anchors to teeth of a patient. The appliance may be for use in orthodontic aligner treatment. The method may include forming a dental appliance. The forming may be done using a three-dimensional printing approach. The appliance may include a body. The body may include at least one anchor-locating area. The anchor-locating area may be shaped to conform to a mounting area on a surface of a tooth. The appliance may include a receiving structure. The receiving structure may be configured to removably support a dental anchor. The dental anchor may be of a predefined configuration in a fixed position and orientation relative to the body.

A method of producing a custom dental anchor application appliance may be provided. The appliance may be for mounting one or more anchors to teeth of a patient. The appliance may be for use in orthodontic aligner treatment. The method may include forming a dental appliance. The forming may be done using a three-dimensional printing approach. The appliance may include a body. The body may include at least one anchor-locating area. The anchor-locating area may be shaped to conform to a mounting area on a surface of a tooth. The appliance may include a receiving structure. The receiving structure may be configured to removably support a dental anchor. The dental anchor may be of a predefined configuration in a fixed position and orientation relative to the body.

In some embodiments, apparatuses and methods are provided herein useful to orthodontic appliances. In some embodiments, an orthodontic appliance comprises a body, a facial surface, wherein the facial surface is located on a first side of the body, and a bonding surface, wherein the bonding surface is located on a second side of the body, wherein the bonding surface includes at least one retentive groove, and wherein the at least one retentive groove is nonlinear across the bonding surface.

In some embodiments, apparatuses and methods are provided herein useful to orthodontic appliances. In some embodiments, an orthodontic appliance comprises a body, a facial surface, wherein the facial surface is located on a first side of the body, and a bonding surface, wherein the bonding surface is located on a second side of the body, wherein the bonding surface includes at least one retentive groove, and wherein the at least one retentive groove is nonlinear across the bonding surface.

In some embodiments, apparatuses and methods are provided herein useful to marking orthodontic devices. In some embodiments, a carrier for orthodontic appliances comprises a base that is additively manufactured and comprising a plurality of wells configured to house orthodontic appliances and a marking integral to the base, wherein the marking identifies one or more of the orthodontic appliances and locations for the orthodontic appliances. In some embodiments, an orthodontic appliances comprises a body including features and a bonding surface, wherein the orthodontic appliance is additively manufactured and includes a marking integral to the orthodontic appliance, wherein the marking is located on one or more of the body and the bonding surface.

In some embodiments, apparatuses and methods are provided herein useful to marking orthodontic devices. In some embodiments, a carrier for orthodontic appliances comprises a base that is additively manufactured and comprising a plurality of wells configured to house orthodontic appliances and a marking integral to the base, wherein the marking identifies one or more of the orthodontic appliances and locations for the orthodontic appliances. In some embodiments, an orthodontic appliances comprises a body including features and a bonding surface, wherein the orthodontic appliance is additively manufactured and includes a marking integral to the orthodontic appliance, wherein the marking is located on one or more of the body and the bonding surface.