Abstract: An orthopaedic implant includes: a base including a molding material; a first porous ingrowth material region coupled to the base; a second porous ingrowth material region coupled to the base; and at least one barrier insert coupled to the base, the barrier insert including a barrier material that is configured to prevent introduction of the molding material of the base into some pores of the first porous ingrowth material region and some pores of the second porous ingrowth material region during molding of the base.

Abstract: An orthopaedic implant includes an implant body having a first surface and a second surface opposite the first surface. The second surface includes a fixation feature. The fixation feature is configured to have a variable width for fastening the implant to a fixation bore formed in a bone. The implant body is D-shaped and has a straight edge and a curved edge. A length of the fixation feature is substantially parallel to the straight edge of the implant body. The fixation feature is configured to have a width that tapers along the length of the fixation feature.

Abstract: An orthopaedic implant includes: a base including a molding material; a first porous ingrowth material region coupled to the base; a second porous ingrowth material region coupled to the base; and at least one barrier insert coupled to the base, the barrier insert including a barrier material that is configured to prevent introduction of the molding material of the base into some pores of the first porous ingrowth material region and some pores of the second porous ingrowth material region during molding of the base.

Abstract: An orthopedic implant comprises a body having an articulating surface and a surface opposite the articulating surface. The surface opposite the articulating surface includes a fixation feature. The fixation feature is configured to have a variable width for fastening the implant to a fixation bore formed in a bone.

Abstract: An orthopedic implant comprises a body having an articulating surface and a surface opposite the articulating surface. The surface opposite the articulating surface includes a fixation feature. The fixation feature is configured to have a variable width for fastening the implant to a fixation bore formed in a bone.

Abstract: An improved method and apparatus for reducing a hip fracture utilizing a minimally invasive procedure which does not require incision of the quadriceps. A femoral implant in accordance with the present invention achieves intramedullary fixation as well as fixation into the femoral head to allow for the compression needed for a femoral fracture to heal. To position the femoral implant of the present invention, an incision is made along the greater trochanter. Because the greater trochanter is not circumferentially covered with muscles, the incision can be made and the wound developed through the skin and fascia to expose the greater trochanter, without incising muscle, including, e.g., the quadriceps. After exposing the greater trochanter, novel instruments of the present invention are utilized to prepare a cavity in the femur extending from the greater trochanter into the femoral head and further extending from the greater trochanter into the intramedullary canal of the femur.

Abstract: An apparatus for sizing a distal femur includes a base configured to concurrently abut a distal surface and a posterior surface of the distal femur, and further includes an axial distance scale. The scale includes a first sleeve axially fixedly coupled to the base and further includes a second sleeve spirally movably coupled to the first sleeve. A method for sizing a distal femur includes concurrently abutting a base against a distal surface and a posterior surface of the distal femur, and further includes measuring a distance relative to the base. The measuring step includes spirally moving a first sleeve relative to a second sleeve.