A bone plate system is for osteosynthesis with a bone plate, a bone screw, the screw head of which has, at least in sections, a surface structure, a further bone screw, the screw head of which has, at least in sections, a surface structure, a through-hole, which is configured to hold the bone screw polyaxially, a further through-hole, which is associated with the through-hole and configured to hold the further bone screw, a perforation which connects the through-hole and the further throughhole, and a bulge, which is formed opposite to the perforation on the through-hole, extending the latter, hi the screwed-in state, the bone screw and the further bone screw are affixed at a fixed angle in many dimensions by virtue of the screw heads of the bone screw and the further bone screw being secured against a relative notion in relation to one another and in relation to the bone plate by a tensioned multi-point mount, in which attachments of the bone screw are formed in the through-hole at both transition regions between the bulge and the through-hole section respectively adjacent to the bulge.

A system is provided which includes an articulating component, a post, a reception member and a bone engaging member. The articulating component includes an articulating surface and a second surface opposite the articulating surface. The post is disposed below the second surface. The reception member is configured to receive the post. The bone engaging member is configured to be embedded in a bone, wherein the bone engaging member is configured to receive the reception member. The reception member includes a reception member inside surface, wherein the reception member inside surface faces the post when the post is received by the reception member. A first portion of the reception member inside surface defines a tapered configuration and the reception member inside surface comprises at least one ratchet interface.

A bone anchor locking device for receiving a bone anchor having a shank and an enlarged head, the device has a bone anchor, a dome and a conical split washer. The receiving portion has a base extending radially outward and inwardly to a wall. The dome has a center aperture sized to pass a bone anchor. The split washer has an inner conical surface sloped to slide and expand against at least a portion of the base on insertion of a bone anchor to allow a maximum diameter of a head of a bone anchor to pass and thereafter the split washer retracts overlying the maximum diameter of the head to prevent a bone anchor from backing out.

An assembly used in osteosynthesis comprising a delivery instrument in combination with an implant wherein the delivery instrument releasably holds the implant in a first configuration prior to attachment of the implant to bone. The delivery instrument allows the implant to be affixed to bone before the implant is released from the instrument. And the instrument may comprise guide means for drills, depth gauges, screws, pins, pegs, blades and or drivers which are used or implanted when the implant is releasably attached to the instrument. After the implant is affixed to bone and released from the delivery instrument, the implant assumes at least a second configuration which provides compression and or distraction and or control of spatial orientation.

An intramedullary nail implant for positioning in a bone having a head and a shaft defining an intramedullary canal. The implant includes a distal portion having a shaft extending along a central axis and configured for positioning within the intramedullary canal. A proximal portion extends proximally from the distal portion. The proximal portion defines a contact surface which extends at least in part medially of the central axis such that it is configured to extend within a medial portion of the bone head. A method of implanting the nail is also provided.

The present invention provides plate systems for distracting and fixating vertebral bodies of animal (preferably human) spines. In some embodiments, the system includes: a biocompatible plate with at least two holes, at least two biocompatible distraction screws for insertion through the holes, each screw having an expandable head, a bore and a threaded shank, and at least two biocompatible fixating screws with threaded shanks. Insertion of the fixating screws into the distraction screws causes the expandable heads to expand and lock to the biocompatible plate. Optionally, the plate and the expandable heads comprises mating teeth configured to lock the expandable heads to the plate upon expansion of the expandable heads. The present invention also relates to use of the plate system to distract and fixate vertebral bodies.

A bone plate is configured for pancarpal arthrodesis. The bone plate can include a plurality of apertures that can be aligned with the metacarpal bones. The apertures can include a first portion and second portion that is longitudinally and laterally offset with respect to the first portion.

A medial column bone plate, comprises a first portion which, when the plate is positioned along a medial column of a foot in a desired position, extends along a navicular, the first portion including at least two first variable angle holes extending therethrough, each of the first variable angle holes configured to receive a bone fixation element therethrough at a user-selected angle relative to a central axis thereof and a second portion extending distally from the first portion so that when the plate is in the desired position, the second portion extends along a medial cuneiform, the second portion including at least one second variable angle hole configured to receive a bone fixation element therein at a user-selected angle relative to a central axis thereof and a first compression slot extending therethrough in combination with a third portion extending distally from the second portion so that the third portion extends along a first metatarsal of the medial column in the desired position, the third portion including a third variable angle hole configured to receive a bone fixation element therein at a user-selected angle relative to a central axis thereof and a second compression slot extending therethrough.

Various spinal plating systems for use in treating spinal pathologies are provided. In certain exemplary embodiments, the spinal plating systems can be configured to allow a surgeon to select a bone screw construct having a particular range of motion for attaching a spinal plate to bone as needed based on the intended use. In one exemplary embodiment, the spinal plating system includes a first bone screw that is polyaxially movable relative to the spinal plate, and a second bone screw that has a range of motion that is substantially limited to a single plane.

The present disclosure relates to a bone fixation system for orthopaedic surgery. In one form, the system comprises a screw and a plate, the plate comprising at least one through opening, the through opening comprising a screw inlet, and a through bore which tapers inwardly as it extends through the plate from the screw inlet, the plate further comprising a plurality of splines which further define the through opening by projecting into the through bore, each spline extending longitudinally through the through opening, and comprising a top land which extends from the screw inlet and along the spline, and wherein in use, at least a portion of a head of the screw will engage with the top lands of the splines. A plate for a bone fixation system is also disclosed.