Disclosed is a prosthetic augment designed to reconstruct a lateral tuberosity shape of a humerus in a subject having proximal bone loss that includes a humeral adapter tray configured to connect a humeral liner of a reverse shoulder prosthesis to a humeral stem of the reverse shoulder prosthesis and an augment member having a first face adapted for contacting the humeral stem of the reverse shoulder prosthesis and a second face adapted for contacting an underside of a muscle, wherein at least a portion of the second face includes a bulbous surface adapted to alter a wrapping angle of the muscle around the lateral tuberosity, and wherein the second face has a radius of curvature selected from one of a constant radius of curvature or a variable radius of curvature.

Expandable spinal implants, systems and methods are disclosed. An expandable spinal implant may include a first endplate, a second endplate, and a moving mechanism that is operably coupled to the first and second endplates. The moving mechanism may include a wedge, a first sliding frame and a second sliding frame disposed on opposite sides of the wedge, a screw guide housing a rotatable first set screw and a rotatable second set screw opposite the first set screw. The first set screw may be operably coupled to the second sliding frame and the second set screw may be operably coupled to the wedge. The moving mechanism may operably adjust a spacing between the first and second endplates upon simultaneous rotation of the first and second set screws and operably adjust an angle of inclination between the first and second endplates upon translating the first set screw or second set screw.

A disc replacement device including a first body member with a convex articulation surface and a second body member with a concave articulation surface is disclosed. When operably positioned, the convex articulation surface engages the concave articulation surface to provide for movement therebetween. The disc replacement device also includes a first opening in the first body member and a second opening in the second body member, wherein the openings are angled and extends from the front aspects of the body members through the external surfaces. The disc replacement device further includes at least two bone fasteners for insertion into the first and second openings to secure the disc replacement device to a first and second vertebra. An interbody motion device and fusion implant, as well as a surgical method for implantation are also disclosed.

An orthopaedic surgical instrument system includes a first broach including a first end configured to be separately secured to a handle and a tapered body having a plurality of cutting teeth defined therein, and a second broach including a first end configured to be separately secured to the handle in place of the first broach, a first tapered body extending distally from a second end positioned opposite the first end, and a second tapered body extending distally from the first tapered body. The tapered body of the first broach and the first tapered body of the second broach have a first outer geometry and the second tapered body has a second outer geometry different from the first outer geometry.

This disclosure relates to orthopaedic implants and methods for repairing bone defects and restoring functionality to a joint. The implants disclosed herein include augment geometries that may approximate a surface contour or bone void along a surgical site and include patterns of peripheral apertures that may be utilized for improved fixation of the implants at the surgical site.

Provided is an implant for restoring the mobility of an articular end of a bone. The implant includes a framework having a first face and a second face opposite the first face, the framework is defined by a plurality of free volumes formed by a grating, where the grating includes a first series of bars extending through the framework from the first face to the second face, and a second series of bars extending through the framework from the first face to the second face, wherein the second series of bars are parallel to one another, and spaced apart in pairs, where the bars have ends along the second face that are bevelled.

A spine stabilization and fusion system includes a lateral cage having a lateral cage bore hole. The system also includes a lateral cage insertion shaft comprising a leading end, a mid-portion, and a terminal end. A shape of the leading end matches a shape of the lateral cage bore hole such that the leading end mates with the lateral cage bore hole via a friction fit. The system also includes a lateral plate having a lateral plate bore hole and a plurality of holes, where the lateral plate bore hole receives the mid-portion of the lateral cage insertion shaft, and where the plurality of holes receive fasteners to couple the lateral plate to one or more vertebra.

A method for placing an implant on a patient in a robotic surgical procedure using a robotic system. During the robotic surgical procedure, a navigation system tracks the patient. The navigation system also provides information to the robotic system to guide movement of a cutting tool to remove material from the patient such that a cut surface is created to receive the implant. The implant is then robotically placed on the cut surface.

A glenosphere includes a body, a first surface, a second surface, a cavity defined within the body, and a plurality of channels. The body defines a central axis passing through the body. The first surface includes a first rim and a second rim. The first rim is positioned radially outward from the second rim relative to the central axis. The second surface extends from the first rim of the first surface. The second surface has a convex shape. The cavity has a perimeter defined by the second rim and is configured to receive an attachment structure attachable to a bone. The plurality of channels extend from the first surface through the body to the second surface. Each channel defines a first opening positioned on the first surface between the first rim and the second rim and defines a second opening positioned on the second surface. Each channel is configured to receive a bone fixation member configured to secure the glenosphere to the bone.

Disclosed herein are aspects of expandable interbody devices having an unobstructed graft material containment space. Such expandable interbody devices have a structure in which an overall plan view area of the graft material containment space is devoid of elements of the expandable interbody device enabling adjustment of the expandable interbody devices between a collapsed configuration and displaced configuration (e.g., an expanded configuration and/or a tilted configuration). In this manner, expandable interbody devices configured in accordance with embodiments of the disclosures made herein do not have obstructions within the graft material containment space thereof that limit the available volume of graft material and associated bony material growth that may be contained within the graft material containment space.