A short-stem femoral implant suitable for use in hip arthroplasty configured to self-stabilise against sliding across the endo-cortex when implanted in a subject's femur. The femoral implant includes a distal end configured to engage in abutment with the lateral endo-cortex of the subject's femur at two distal locations such that when implanted, the femoral implant has a reduced tendency for sliding across the endo-cortex.

A prosthesis for spinal surgery includes a spacer adapted to be secured into the bone and attached to one of a plurality of configuration plates. The configuration plates are interchangeable and each one is configured to utilize a different combination of bone screws, anchors or both. The prosthesis may further include a retaining mechanism to prevent bone screws and/or anchors from backing out.

An expandable anterior lumbar interbody fusion device comprises a multiple piece construction that includes an outer shell, movable upper and lower endplates and a pair of laterally spaced supports therebetween. The endplates are initially nested within the outer shell and telescope through the outer shell when expanded by a secondary instrument. Each endplate includes fixation elements to anchor the expanded device in an intervertebral disc space. Bilateral internal pockets are formed within each of the endplates to fully contain the supports. Once the device is expanded, the supports are pushed into place by the instrument in a manner to maintain the expanded position. After the supports are in place, the expander instrument is removed, and the device remains anchored in the expanded state.

A bone implant holding and shaping tray is provided. The tray includes a first segment having a distal end and a first surface sized to hold and shape at least a portion of the bone implant with bone material. The tray includes a second segment having a second surface sized to hold and shape at least a portion of the bone implant with bone material, the second segment having a proximal end configured to be coupled to the distal end of the first segment so as to extend the first surface to hold and shape the bone implant. Methods of making and using the bone implant holding and shaping tray are also provided.

A prosthesis for spinal surgery includes a spacer adapted to be secured into the bone and attached to one of a plurality of configuration plates. The configuration plates are interchangeable and each one is configured to utilize a different combination of bone screws, anchors or both. The prosthesis may further include a retaining mechanism to prevent bone screws and/or anchors from backing out.

A spacer system replaces or substitutes for a medical implant in a patient. The system includes a housing comprising a shape similar to the medical implant; an aperture in the housing, a subcutaneous port configured to receive a medicament, the subcutaneous port being in fluid communication with the aperture; and at least one channel within the housing, wherein the at least one channel extends from the aperture to an exterior surface of the housing to equally distribute a material the medicament from the aperture through the at least one channel. The subcutaneous port is in fluid communication with the aperture through a catheter connecting the subcutaneous port to the aperture. The system may be used to replace a variety of medical implants, including a hip implant, an intramedullary nail, a pedicle screw, a knee implant, a sternum prosthesis, and a clavicle prosthesis, an ankle implant, shoulder implant, tibia implant, femur implant, humerus implant, spinal cage, external fixation pin, intercalary fusion device, talus implant, or a vertebral body implant.

Expandable fusion cages are disclosed which may be expandable in two substantially mutually perpendicular directions.

A joint replacement system for repairing an articular surface of a first bone of a joint includes an anchor portion and an implant portion. The anchor portion includes an anchor to be secured to the bone, and an anchor fixation head including a bone-facing surface (BFS) extending radially outward from the anchor and an implant facing surface (IFS) extending from a periphery of the BFS. The implant portion is formed from a material (e.g., CoCr) more dense than the material of the anchor portion (e.g., Ti) and includes a fixation cavity to receive at least a portion of the anchor fixation head (AFH), the fixation cavity includes an anchor facing surface (AFS) configured to form a frictional connection with the IFS, and a load bearing surface having a contour for articulating against a cooperating articulating surface of a second bone of the joint.

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.

This invention corresponds to a prosthesis for total or hip resurfacing replacement, which comprises a prosthetic femoral head made of highly cross-linked polyethylene, with a diameter ranging from 38 mm to 64 mm, to articulate with a cup or acetabular component made of metal. When the invention applies to total hip replacement, the polyethylene head includes a metal core, which contains inside the female counterpart (14) to mate with the male counterpart (13) of a Morse taper, located at the upper end of the femoral component. The use of this type of head for total hip replacement, articulated with an ultra-polished acetabular cup, reduces the risk of dislocation, transmits less angular and torque forces to the Morse taper than large metal heads, and avoids the problems related to the metal-metal bearing or with the use of large metal heads with thin polyethylene. When the invention relates to hip resurfacing replacement, the highly cross-linked polyethylene femoral head has a lower polyethylene extension or stem with or without internal metal reinforcement (151) or a metal stem integrated into a metal-back (152). Using these types of heads for hip resurfacing replacement heads eliminates the problems associated with metal-on-metal resurfacing replacements.