A method of treating a maxillary deficiency in a patient in need thereof comprises coupling a first bone anchor to the buccal surface of the maxilla of the patient, coupling a second bone anchor to the buccal surface of the maxilla of the patient, attaching a device to the first bone anchor and the second bone anchor, and applying an expansion force through the device to the maxilla. A device comprises a facebow and a lateral attachment portion, coupled to the facebow. The facebow includes a first extra-oral attachment portion and a second extra-oral attachment portion, configured to be coupled to an external anchorage or protraction device, a first intra-oral attachment portion, configured to be coupled to a first bone anchor, and a second intra-oral attachment portion, configured to be coupled to a second bone anchor. The device may be coupled to an external anchorage or protraction device.

A process for manufacturing customized facemasks, includes: producing respective impressions of patient's forehead and chin, to record an anatomic structure thereof, using impression materials commonly utilized in dentistry for intraoral impressions; producing respective 3D digital images of a patient's forehead and chin through a 3d-scanning of the forehead and chin impressions; 3D printing of customized forehead and chin pads; detecting patient's side profile line from a side picture of patient's face; 3D printing of a midline rod modelled according to said profile line; and assembling the forehead and chin pads and said midline rod into a facemask featuring a facial frame providing retention to elastic bands connectable to an intraoral appliance, in the forehead pad a temperature sensor is inserted while a pressure sensor is embedded into the chin pad.

A medical device and method of expanding the maxilla of a patient via application of intra-orally generated forces and/or applying externally generated protraction forces to the maxilla of the patient is provided. The medical device can embody multiple configurations device that include skeletal anchorage device alone or in combination with a fixed aligner or an adjustable aligner.

A system, components and methods is described to enable the treatment of maxillary deficiency and craniofacial dystrophy by positioning the maxilla via protraction forces applied extra-orally to skeletal anchorage devices embodied as bone anchors. The protraction forces are applied with minimal or no rotational moments being applied at the bone anchors. The shape and geometry of the bone anchors can be customized to fit the particular skeletal of individual patients.

A detachable orthodontic bracket and wire system includes bracket bases, brackets, and an arch wire for guiding alignment of teeth. The bracket bases are positioned on a lingual surface and/or a facial surface of the teeth. Each bracket base includes a first surface, a second surface, and at least one first interlocking element. The first surface is rigidly attached to the lingual surface and/or the facial surface of the teeth. The second surface opposes the lingual surface and/or the facial surface of the teeth. The first interlocking element is attached to and positioned in a direction substantially perpendicular to or parallel to the second surface of each bracket base. The brackets include at least second interlocking element that interlocks with the first interlocking element. The arch wire is inserted through a slot channel of each bracket. The bracket and the arch wire are infused and rigidly anchored within enclosing layers.

A detachable orthodontic bracket and wire system includes bracket bases, brackets, and an arch wire for guiding alignment of teeth. The bracket bases are positioned on a lingual surface and/or a facial surface of the teeth. Each bracket base includes a first surface, a second surface, and at least one first interlocking element. The first surface is rigidly attached to the lingual surface and/or the facial surface of the teeth. The second surface opposes the lingual surface and/or the facial surface of the teeth. The first interlocking element is attached to and positioned in a direction substantially perpendicular to or parallel to the second surface of each bracket base. The brackets include at least second interlocking element that interlocks with the first interlocking element. The arch wire is inserted through a slot channel of each bracket. The bracket and the arch wire are infused and rigidly anchored within enclosing layers.

Orthodontic system anchoring method and custom apparatus affixed to teeth, TADs and/or tooth positioning and stabilization appliances and/or orthodontic auxiliaries. Each appliance has mechanical fasteners structured to secure segments of a curable flexible resin rope called a flex fit module (FFM). The FFM is moldable and adaptable to the oral cavity between mechanical fasteners in an uncured first mode where it is cut to length, positioned around the anatomy of the mouth and attached to clamps or fasteners at each end. Each fastener has a clamp attached to orthodontic auxiliaries, orthodontic appliances or onto a TAD for anchorage purposes. One end of this custom appliance is usually attached via a clamp manufactured as part of a bracket or band to a tooth. The other end is connected to an appliance, tad or auxiliary. Once connected together the system is cured and becomes a solid entity ready to accept orthodontic forces.

Orthodontic system anchoring method and custom apparatus affixed to teeth, TADs and/or tooth positioning and stabilization appliances and/or orthodontic auxiliaries. Each appliance has mechanical fasteners structured to secure segments of a curable flexible resin rope called a flex fit module (FFM). The FFM is moldable and adaptable to the oral cavity between mechanical fasteners in an uncured first mode where it is cut to length, positioned around the anatomy of the mouth and attached to clamps or fasteners at each end. Each fastener has a clamp attached to orthodontic auxiliaries, orthodontic appliances or onto a TAD for anchorage purposes. One end of this custom appliance is usually attached via a clamp manufactured as part of a bracket or band to a tooth. The other end is connected to an appliance, tad or auxiliary. Once connected together the system is cured and becomes a solid entity ready to accept orthodontic forces.

A detachable orthodontic bracket and wire system includes bracket bases, brackets, and an arch wire for guiding alignment of teeth. The bracket bases are positioned on a lingual surface and/or a facial surface of the teeth. Each bracket base includes a first surface, a second surface, and at least one first interlocking element. The first surface is rigidly attached to the lingual surface and/or the facial surface of the teeth. The second surface opposes the lingual surface and/or the facial surface of the teeth. The first interlocking element is attached to and positioned in a direction substantially perpendicular to or parallel to the second surface of each bracket base. The brackets include at least second interlocking element that interlocks with the first interlocking element. The arch wire is inserted through a slot channel of each bracket. The bracket and the arch wire are infused and rigidly anchored within enclosing layers.

A detachable orthodontic bracket and wire system includes bracket bases, brackets, and an arch wire for guiding alignment of teeth. The bracket bases are positioned on a lingual surface and/or a facial surface of the teeth. Each bracket base includes a first surface, a second surface, and at least one first interlocking element. The first surface is rigidly attached to the lingual surface and/or the facial surface of the teeth. The second surface opposes the lingual surface and/or the facial surface of the teeth. The first interlocking element is attached to and positioned in a direction substantially perpendicular to or parallel to the second surface of each bracket base. The brackets include at least second interlocking element that interlocks with the first interlocking element. The arch wire is inserted through a slot channel of each bracket. The bracket and the arch wire are infused and rigidly anchored within enclosing layers.