Disclosed is a wedge for use during a reverse shoulder arthroplasty. The wedge can comprise a body having a proximal surface and a distal surface. The proximal surface and the distal surface can each extend from a distal end of the body to a proximal end of the body. The distal end can have a distal length and the proximal end can have a proximal length. The distal length can be shorter than the proximal length. The proximal surface can have a proximal curvature and the distal surface can have a distal curvature. The proximal curvature or the distal curvature can approximate a curvature of a deltoid muscle.

A geared cam expandable spinal implant. Rotational motion of a rotating portion is translated into linear motion of a yoke, which moves geared cams at the distal end of the implant to mate with, and walk along, teeth of corresponding racks. The walking of the gear cam teeth along the rack teeth creates a regular rate of implant expansion, reduces initial excessive expansion force applied to the implant, and provides fine adjustment of the expansion rate and force.

Ankle prosthesis (400) comprising a tibial component (100), a talar component (200) and an intermediate component (300) interposed between said tibial component (100) and said talar component (300). The prosthesis has an anatomical shape and enables restoration of articular functionalities. Also described are a tool for the shaping of a talus, which shaping is aimed at the implant of the talar component (200) of said prosthesis (400), and a surgical tool for enabling a shaping of the tibia aimed at the implantation of the tibial component (100).

An expandable implant includes a top support assembly defining an upper surface configured to engage a first portion of bone, a first central aperture extending from the upper surface to an interior of the implant, and a first grid structure surrounding the first central aperture; a bottom support assembly defining a lower surface configured to engage a second portion of bone, a second central aperture extending from the lower surface to the interior, and a second grid structure surrounding the second central aperture; and a control assembly coupled to the top support assembly and the bottom support assembly and configured to control relative movement between the top support assembly and the bottom support assembly between a collapsed position and an expanded position.

An artificial disc is provided which more closely matches the movement of the natural spine. The artificial disc uses one or more projections and corresponding recesses to provide a sliding articulation. The artificial joint is inherently stable in that compressive forces placed on the disc such as the weight placed upon the joint or the tension of surrounding tissues urges the joint towards a neutral position and not farther away from a neutral position.

A hip implant having two distinct bodies, a neck body and a bone fixation body. The neck body is formed from a solid metal and has an interface for connecting to a femoral ball. The bone fixation body has an elongated shape and is formed as a porous structure that is inserted into an intramedullary canal of a patient.

A femoral augment, or set of augments, for use with a knee joint prosthesis, where the femoral augment includes a main body portion, an aperture formed within the main body portion and extending in a generally distal/proximal direction, and a pair of legs extending outwardly from said main body portion in a generally posterior direction. In the preferred embodiment, the aperture is configured to receive a stem extension implant, and to allow it to pass through. Additionally, the legs of the femoral augment are preferably configured to be seated proximal of a proximal side of a pair of condylar portions of a femoral component of a knee joint prosthesis.

A dynamic intervertebral spacer includes a ring which is split on an anterior portion. A posterior portion of the ring acts as a torsion spring. After implantation, the ring is able to act as a spring between superior and inferior vertebral bodies, thus allowing dynamic bone growth in fusion procedures.

The present invention relates to an intervertebral fusion device (10) comprising a superior component (20), an inferior component (40) receivable in an intervertebral space between first and second vertebrae, with the core component (80) insertable between the superior and inferior components to determine a separation between the superior and inferior components. The superior, inferior components and core components comprise respective formations and profiles. The formations (54, 68) present a barrier to separation of the core from one of the inferior and superior components during insertion of the core component. The profiles guide the core component during insertion of the core component while presenting no barrier to separation from each other during its insertion. The components comprise further formations (39, 76) which present a barrier to separation of the components from each other once the core has been fully inserted between the inferior and superior components.

Implantable orthopedic pain management devices are disclosed, including a body with a top surface, a bottom surface, and at least two substantially parallel surfaces, the two substantially parallel surfaces having substantially similar radii of curvature and are substantially trapezoidally shaped, the top surface having a top radius of curvature and the bottom surface having a bottom radius of curvature, the body being configured to be disposed in a joint such that the surfaces are configured to be in intermittent contact with bone surfaces of one or more bones comprising the joint, the body not being coupled to the one or more bones, and a peripheral protrusion disposed substantially at an intersection of at least two surfaces, the peripheral protrusion being formed with the body, substantially spherical, and configured to prevent expulsion of the body from the joint.