A novel method for extra-alveolar vertical augmentation utilizing bone graft and low-magnitude high-frequency vibration. Graft material is placed at an extra-alveolar location along the alveolar ridge. The graft can be used alone or formed into a PRF block to help it maintain volumetric shape during the initial healing process. After insertion into the surgical site, the graft can be covered by a barrier, for example a bioactive amnion/chorion barrier. The flaps are then sutured to attempt to obtain primary closure over the graft and barrier. Low-magnitude high-frequency vibration is applied, resulting vertically augmented alveolar bone.

A removable orthodontic assembly to be used in a user's mouth, including: a frame member configured to be removably positioned proximate a lingual portion of the user's teeth; a first connector member, wherein the first connector member comprises a first end extending proximate to a labial portion of the user's teeth and a second end engaging the frame member; and a labial bow configured to be removably positioned proximate to the labial portion of the user's teeth having a first end and a second end, wherein the labial bow is configured to removably engage the first connector member.

Ultrasonic devices, systems, and methods for orthodontic treatment performed with aligners are described. Such devices, systems, and methods are to provide multiplicative treatment duration shortening for patients under orthodontic treatment with aligners, such as clear aligners. Communication of desired ultrasound treatment can be communicated from an aligner to an ultrasound device by a communication module using an identification number on the aligner and entering the identification number into the system, an identification number on an external document and entering the identification number into the system, a scannable code and code reader, and an assessment by a dentist and entering the assessment into the system, a radio-frequency identification (RFID) transponder and RFID reader, a change in material properties of the aligner and reading the material properties, or a change in optical properties and reading the optical properties.

An orthodontic remodeling system includes an extraoral vibratory source coupled to a bite plate, where the extraoral vibratory source is operable to vibrate the bite plate at a frequency in a range of 0.1 to 400 Hz. The bite plate is configured to deliver cyclic forces simultaneously to teeth of the maxillary and mandibular arches, and the bite plate and the extraoral vibratory source are held during use only by clamping with the teeth. A battery is operable to power the extraoral vibratory source, and a processor is configured to control the extraoral vibratory source. Electronic media is operable to capture data indicating usage duration and usage frequency to allow patient compliance to be determined.

Methods for designing orthodontic appliances for repositioning a patient's teeth are provided. In some embodiments, a method includes determining a movement path to move one or more teeth from an initial arrangement to a target arrangement, determining a force system to produce movement of the one or more teeth along the movement path, and determining an appliance geometry for an orthodontic appliance configured to produce the force system. The orthodontic appliance can include an outer shell comprising a plurality of teeth-receiving cavities and an inner structure positioned on an inner surface of the outer shell. The inner structure can have an elastic modulus different than an elastic modulus of the outer shell. The method can also include generating instructions for directly fabricating the orthodontic appliance using a layer-by-layer additive manufacturing technique.

Described herein is an oral appliance. The oral appliance includes upper and lower trays that each include at least one axial spring configured to contact a palatal/lingual surface of at least one tooth, where each axial spring is coupled to the respective upper or lower tray, and where each axial spring is configured to produce and transmit intermittent, cyclic forces to the palatal/lingual surface of the tooth to promote palatal and upper/lower jaw development. The upper and lower trays each include an expansion mechanism to enable adjustment of the size of the upper and lower trays to account for palatal expansion and upper and lower jaw development. The oral appliance includes first and second adjustable hinge arms that are removably connected to the upper and lower trays so that the oral appliance advances the mandible to provide temporary relief from sleep disordered breathing, sleep apnea and/or snoring.

A method for moving an existing implant along a jaw bone of a person, the method including positioning an abrasive bur between adjacent roots of the at least one tooth and existing implant in the jaw bone, rotating the abrasive bur, applying the rotating bur to penetrate the gingiva tissue covering the space between the adjacent roots of the at least one tooth and implant to remove a desired amount of gingival tissue and expose the underlying jaw bone, and contacting the bone with the rotating bur to abrasively vibrate the jaw bone adjacent to at least one tooth without drilling through the cortical bone.

A device including one or more preformed or customized eruption guidance appliances placed in an individual’s mouth. The preformed appliances are vibrated with a pulsation device to encourage tooth eruption by increasing the force and efficiency of the eruption toward a preferred location and a preferred alignment as well as providing increased blood flow and blood oxygen flow to the muscles and tissues in and around the oral cavity of the individual. The preformed guidance appliance driven by the pulsation device is selected from a range of guidance appliances, each of which is selected by size and shape to fit an individual based on the individuals anticipated tooth and jaw size as well as the growth profile. The pulsation can increase the blood and oxygen flow to the many muscles that surround the appliances outside surfaces that can alter mouth breathing, prevent impingment of the oropharynx from the abnormal distalizatin of the tongue and mandible during sleep, the proper resting posture of the tongue, increased nasal breathing, prevent snoring, improve abnormal swallowing, correct thumb sucking and vaious abnormalities of speech.

A current digital dental model is received that includes a representation of the set of physical teeth for the patient with the current dental appliance attached to the physical teeth or oral cavity. The current digital dental model is a direct digital scan of the set of physical teeth and the current dental appliance. The physical teeth are at a position in treatment when all or a part of the current dental appliance is desired to be removed from one or more of the set of physical teeth and it is desired to use a subsequent appliance. The current digital dental model is created based a new digital dental model that includes the representation of the set of physical teeth without including the current dental appliance.

An intra oral removable orthodontic assembly which influences teeth alignment. The assembly comprises; a intraoral attachment fitted to a seating unit and in use, held in place by intraoral engagement of the attachment with crowns of teeth of a wearer. The intraoral attachment is shaped to at least partially conform to at least a dental arch. The seating unit includes a power source, a PCB controller and a source of vibration transmissible to the attachment. The seating device vibrates in response to the source of vibration at a selected frequency between 60 Hz-130 Hz inducing a response in a selected tooth or group of teeth of a wearer. The attachment includes a working head having an array of displaceable formations responsive to said vibration and arranged to engage said teeth.