A base member for an orthodontic implant device. The base member makes it possible to easily and reliably attach a correction implement. The base member is secured by a plurality of screws that are embedded in a bone inside an oral cavity. Each of the plurality of screws has a screw part that is embedded in the bone and a polygonal-columnar head part that is exposed inside the oral cavity. The base member has at least three engagement holes that are provided so as to be capable of engaging the polygonal-columnar head parts and such that the centers thereof are not on the same straight line.

A medical apparatus including a bar with a first attachment loop, a second attachment and a plurality of hooks, wherein the medical apparatus is an arch bar.

The present invention relates to a palatal anchor plate, which is fixedly installed to mid-palatal area (the roof of a mouth) and provides a rigid orthodontic anchorage for tooth movement, whereby the palatal anchor plate reduces a counteraction (movement of a tooth that is used as an anchorage), which occurs when a tooth is used as an orthodontic anchorage, and provides a rigid orthodontic anchorage for tooth movement in various directions, which is difficult to obtain when a tooth is used as an orthodontic anchorage.

The invention relates to orthodontic appliances that simulate the center of resistance in orthodontic treatment. The orthodontic appliance includes at least one bonding pad for attaching said appliance to a corresponding lingual side of a tooth and a netted structure extending in a mesial-distal direction substantially below the at least one bonding pad. The netted structure engages or passes components for delivering force in orthodontic treatment. With aid of the force delivering components engaged or passed in the netted structure, a dentist or a clinician can advantageously simulate the center of resistance in a dentition or a tooth in orthodontic treatment for space closure and/or distalization.

An orthodontic abutment that includes a base suitable for fixing the orthodontic abutment to an implant, a cap fixed to the base and a set of retention elements arranged along a side wall of the cap. The set of retention elements is suitable for receiving orthodontic elements and includes: a bracket with wings, a hook arranged under one of the wings of the bracket, a projection arranged on the cap oppositely to the bracket, a hollow tube formed inside the projection, a curved rod hook arranged on the projection below the hollow tube, and a button with an eyelet arranged above the hollow tube.

A dental screw for osseointegration of a bone surface includes a base, a healing cap, and a handle. The base includes a penetrating body configured to penetrate into a bone. An area of the penetrating body at a proximal side of the base is smaller than an area of the penetrating body at a distal side of the base.

Systems, methods, devices and apparatus for mandibular advancement or retraction via bone anchoring devices are described herein. In various aspects, an apparatus for treating a patient via mandibular advancement or retraction comprises a plurality of anchoring devices positioned in the patient's intraoral cavity. Each of the plurality of anchoring devices can be positioned in bone of the patient's upper jaw or bone of the patient's lower jaw. One or more connecting structures can be removably coupled to and extend between the plurality of anchoring devices in order to displace the lower jaw anteriorly or posteriorly relative to the upper jaw.

The invention discloses a modular surgical bone screw assembly having a threaded base portion and a screw head adapted to attach a variety of structures to bone. The features of the screw include a modular design for the assembly that separates the function of anchorage to the recipient bone to one of the modules of the device (threaded portion) from the other function of attaching another element (such as bone block, membrane, orthodontic wires, elastics etc) to a second module (the screw head). The design also allows the head to be exchanged after the implant has been placed.

The bony bracket screw has a cross-slot head or a Phillips head and a shank extending from the head, the shank having a smooth upper portion, a threaded lower portion, and a self-tapping or self-drilling tip. The screw has an annual flange defining a stop disposed between the smooth upper shank and the threaded lower shank. The stop may have a larger diameter than the head. The screw has a bracket arm extending from the smooth upper shank at an oblique angle. The free end of the bracket arm has a round retainer, which may be circular or cylindrical and defines a smooth bore adapted for supporting a distractor or other dental appliance. The screw may be made from stainless steel or other noncorrosive, biocompatible material.

Connectors for connecting or linking one instrument or object to one or more other instruments or objects are disclosed herein. In some embodiments, a connector can include a first arm with a first attachment feature for attaching to a first object, such as a surgical access device, and a second arm with a second attachment feature for attaching to a second object, such as a support. The connector can have an unlocked state, in which the position and orientation of the access device can be adjusted relative to the support, and a locked state in which movement of the access device relative to the support is prevented or limited. Locking the connector can also be effective to clamp or otherwise attach the connector to the access device and the support, or said attachment can be independent of the locking of the connector.