A ceramic femoral resurfacing head prosthesis (110) comprises a ceramic convex outer contact surface (112) engagable with an acetabulum of a patient or an acetabular cup prosthesis and a concave inner fixation surface (114) having an inner-land portion (128), the ceramic convex outer contact surface (112) and the concave inner fixation surface (114) extending to intersect each other at a rim (116). A ceramic stem (120) projects from the concave inner fixation surface (114), and is adapted to be received by a stem bore. The concave inner fixation surface (114) includes a skirt (134) which is cylindrical or substantially cylindrical, or frusto-conical or substantially frusto-conical, and at least one circumferentially elongate recess (136) at the skirt (134).

Disclosed herein are implants with pivots that can be rotated about these pivots to be implanted onto bone, and methods for implanting same. The implant may have a plurality of pivot pads and curved projections extending from one or more bone contacting surfaces. The pivot pads and curved projections may engage with corresponding features on bone for implantation and securement of the implant to the bone. The implant may be rotated about the plurality of pivot pads placed in corresponding recesses on bone to seat the projections into the corresponding recesses.

A ceramic femoral resurfacing head prosthesis (110) comprises a ceramic convex outer contact surface (112) engagable with an acetabulum of a patient or an acetabular cup prosthesis and a concave inner fixation surface (114) having an inner-land portion (128), the ceramic convex outer contact surface (112) and the concave inner fixation surface (114) extending to intersect each other at a rim (116). A ceramic stem (120) projects from the concave inner fixation surface (114), and is adapted to be received by a stem bore. The concave inner fixation surface (114) includes a skirt (134) which is cylindrical or substantially cylindrical, or frusto-conical or substantially frusto-conical, and at least one circumferentially elongate recess (136) at the skirt (134).

A tibial implant for knee arthroplasty includes a tibial plate, a tibial keel, and at least one anchoring projection. The tibial plate is sized and shaped for placement on a proximal end of a tibia of a patient. The tibial plate includes opposite proximal and distal surfaces with the distal surface configured to engage the end of the tibia. The tibial keel extends distally from the distal surface of the tibial plate and is configured to be inserted into the proximal end of the tibia. The anchoring projection extends distally from the distal surface of the tibial plate and is configured to be inserted into the proximal end of the tibia.

A patella implant for knee arthroplasty includes a cap and a base. The cap has an articulating surface and a plurality of first connection members. The base is to be attached to the backside of a patella of a patient. The base includes a cap support mounted to the cap. The cap support includes a plurality of first connection recesses. Each first connection member of the cap is disposed in a corresponding one of the first connection recesses of the cap support to mount the cap to the base.

Implant assemblies, systems, and methods for stabilizing a joint between a superior vertebra and an inferior vertebra may include a plate member coupled to an interbody spacer with at least one fastener that extends superiorly or inferiorly from the implant assembly to anchor within a vertebral body and stabilize the joint. Inserters and methods of insertion may also be included to facilitate fixation of various implant assemblies within the intervertebral space of the joint between the superior vertebra and the inferior vertebra.

A medical implant which comprises a porous lattice is fabricated with additive manufacturing techniques such as direct metal laser sintering. A CAD model of the porous lattice is created by defining a trimming volume and merging some lattice elements with adjacent solid substrate.

A system for preparing a knee may include a marking guide with a handle and a tibial marking portion extending from the handle. The handle may have a tibial alignment feature shaped to be aligned with a first corresponding feature of a tibia and a tibial marking guide shaped to guide motion of a marking instrument to provide, on the tibia, a tibial mark that identifies a tibial location at which a tibial component is to be placed on the tibia. The marking guide may further have a femoral marking portion with a femoral alignment feature shaped to align the femoral marking portion with the tibial marking portion and/or the tibial mark, and a femoral marking guide shaped to guide motion of a marking instrument to provide, on a femur, a femoral mark that identifies a femoral location at which a femoral component is to be placed on the femur.

A fixation device for a knee replacement. The fixation device includes a stem configured to be fixedly attached to one of a tibial component of the knee replacement and a femoral component of the knee replacement. The stem has a continuously tapered outer surface and has a distal end that is distal to said one of the tibial component and the femoral component. A tapered projection is positioned on the continuously tapered outer surface and is tapered in the same direction as the continuously tapered outer surface. The stem and the tapered projection are configured so that the continuously tapered outer surface and the tapered projection engage a patient's bone when the stem is inserted into a bone canal within the patient's bone. In addition, the continuously tapered outer surface of the stem at the distal end of the stem and the tapered projection are configured to mechanically fix the knee replacement to the patient's bone by being wedged within the bone canal.

Disclosed herein are implants with pivots that can be rotated about these pivots to be implanted onto bone, and methods for implanting same. The implant may have a plurality of pivot pads and curved projections extending from one or more bone contacting surfaces. The pivot pads and curved projections may engage with corresponding features on bone for implantation and securement of the implant to the bone. The implant may be rotated about the plurality of pivot pads placed in corresponding recesses on bone to seat the projections into the corresponding recesses.