The present invention provides an improved orthodontic bracket with integrated piezosensor chip determining even the slightest change in initial installation setup of orthodontic bracket system and further notifying the subscriber electronically comprising of orthodontic bracket, for holding the tooth; at least one wire, for connecting the orthodontic brackets; and at least one sensor chip placed on the bracket and/or on the wire, wherein, at least one pulse oximeter is installed at the periphery of the bracket base to ensure force applied are within biological limits; the invention provides a detachable wireless frequency transmitter to be placed on the bracket of tie-wing to permit clinical recycling of the bracket; and optionally allowing a handheld laser scanner/photospectrometer to measure the frictional coefficient between the archwire and bracket to determine exact amount of force required for tooth retraction; to determine the bonding technique for detecting voids in adhesive; and to determine the distance between forces applied and center of mass of the tooth.

The present invention provides an improved orthodontic bracket with integrated piezosensor chip determining even the slightest change in initial installation setup of orthodontic bracket system and further notifying the subscriber electronically comprising of orthodontic bracket, for holding the tooth; at least one wire, for connecting the orthodontic brackets; and at least one sensor chip placed on the bracket and/or on the wire, wherein, at least one pulse oximeter is installed at the periphery of the bracket base to ensure force applied are within biological limits; the invention provides a detachable wireless frequency transmitter to be placed on the bracket of tie-wing to permit clinical recycling of the bracket; and optionally allowing a handheld laser scanner/photospectrometer to measure the frictional coefficient between the archwire and bracket to determine exact amount of force required for tooth retraction; to determine the bonding technique for detecting voids in adhesive; and to determine the distance between forces applied and center of mass of the tooth.

Methods, systems, and apparatus's for improving orthodontic treatments. In an embodiment, an orthodontic tracking template is provided for assisting in determining whether a patient's teeth are in an appropriate tooth arrangement for transitioning between a wire and bracket orthodontic treatment to a patient-removable orthodontic appliance treatment. The tracking template may include a shell portion defining a plurality of tooth-receiving cavities arranged to fit over at least a portion of the patient's teeth in an intermediate tooth arrangement without applying a tooth-moving force to the teeth or to any brackets attached to the teeth.

Methods, systems, and apparatus's for improving orthodontic treatments. In an embodiment, an orthodontic tracking template is provided for assisting in determining whether a patient's teeth are in an appropriate tooth arrangement for transitioning between a wire and bracket orthodontic treatment to a patient-removable orthodontic appliance treatment. The tracking template may include a shell portion defining a plurality of tooth-receiving cavities arranged to fit over at least a portion of the patient's teeth in an intermediate tooth arrangement without applying a tooth-moving force to the teeth or to any brackets attached to the teeth.

Aligners and associated systems are provided. In some embodiments, an aligner includes a three-dimensionally (3D) printed shell. The 3D printed shell can include an interior surface having a plurality of tooth-receiving cavities shaped to reposition a patient's dentition from a first arrangement toward a second arrangement, and an exterior surface disposed opposite the interior surface. The aligner can also include one or more elastic regions directly fabricated on the 3D printed shell. When the aligner is worn on the patient's dentition, the aligner can apply one or more forces onto the patient's dentition via the one or more elastic regions to affect repositioning of the patient's dentition from the first arrangement toward the second arrangement.

Aligners and associated systems are provided. In some embodiments, an aligner includes a three-dimensionally (3D) printed shell. The 3D printed shell can include an interior surface having a plurality of tooth-receiving cavities shaped to reposition a patient's dentition from a first arrangement toward a second arrangement, and an exterior surface disposed opposite the interior surface. The aligner can also include one or more elastic regions directly fabricated on the 3D printed shell. When the aligner is worn on the patient's dentition, the aligner can apply one or more forces onto the patient's dentition via the one or more elastic regions to affect repositioning of the patient's dentition from the first arrangement toward the second arrangement.

Methods, systems, and apparatus's for improving orthodontic treatments. In an embodiment, an orthodontic tracking template is provided for assisting in determining whether a patient's teeth are in an appropriate tooth arrangement for transitioning between a wire and bracket orthodontic treatment to a patient-removable orthodontic appliance treatment. The tracking template may include a shell portion defining a plurality of tooth-receiving cavities arranged to fit over at least a portion of the patient's teeth in an intermediate tooth arrangement without applying a tooth-moving force to the teeth or to any brackets attached to the teeth.

Methods, systems, and apparatus's for improving orthodontic treatments. In an embodiment, an orthodontic tracking template is provided for assisting in determining whether a patient's teeth are in an appropriate tooth arrangement for transitioning between a wire and bracket orthodontic treatment to a patient-removable orthodontic appliance treatment. The tracking template may include a shell portion defining a plurality of tooth-receiving cavities arranged to fit over at least a portion of the patient's teeth in an intermediate tooth arrangement without applying a tooth-moving force to the teeth or to any brackets attached to the teeth.

Provided herein are exemplary orthodontic elastic attachments that are customized to fit within the cutout windows of dental aligners, thus improving adhesion and minimizing inadvertent detachment from the tooth surface. The unique base pads are designed to have a shape that complements the present shape of the cutout windows like a puzzle piece. To improve adhesion to the tooth surface, the base pad may have its surface area maximized within the cutout windows. Also for improved adhesion, the base pad may be contoured to the dental anatomy of the tooth at the gumline for an intimate fit. Further exemplary embodiments may include the base pad having beveled edges to permit the aligner to slide over the base pad if it is adhered slightly off-center.

Provided herein are exemplary orthodontic elastic attachments that are customized to fit within the cutout windows of dental aligners, thus improving adhesion and minimizing inadvertent detachment from the tooth surface. The unique base pads are designed to have a shape that complements the present shape of the cutout windows like a puzzle piece. To improve adhesion to the tooth surface, the base pad may have its surface area maximized within the cutout windows. Also for improved adhesion, the base pad may be contoured to the dental anatomy of the tooth at the gumline for an intimate fit. Further exemplary embodiments may include the base pad having beveled edges to permit the aligner to slide over the base pad if it is adhered slightly off-center.