An orthopaedic prosthesis system and associated instrumentation is disclosed. The system includes femoral and tibial components configured to be used in a number of different implanted configurations. The instrumentation is configured to facilitate preparation of the bones and selection of the implant configuration. A method of using the system is also disclosed.

A system for converting a first joint prosthesis to a second joint prosthesis in-situ includes a plurality of inserts having a bone interface side and a component facing side and a plurality of articulating components having a cavity configured to receive at least one of the plurality of inserts. The plurality of inserts may be unicompartmental, bicompartmental, or tricompartmental. The inserts may be made of metal and may have a bone contacting surface made of a porous metal. The plurality of articulating components may be unicompartmental, bicompartmental, or tricompartmental. The articulating components may be sized and shaped to cover one or more of the plurality of bone interface components and span a distance therebetween. The articulating components may be made of a polymer.

A method and system for femoral condylar resection arthroplasty of the knee, which preserves the undamaged meniscus on top of the tibial plateau, whether by arthroscopy or arthrotomy, and only replaces the damaged area of the femoral condyle. In one embodiment, only the distal femoral condyle is replaced and the posterior femoral condyle remains intact. In another embodiment, both the distal and posterior femoral condyle are replaced. The method and system include providing a combined, one-piece Intra-condylar insert and distal femoral cutting block, and placing the intercondylar insert between articular surfaces of a distal femoral condyle and a tibial plateau with the knee in extension. The method and system also includes a box retractor having four right angle blades, two for medial structures and two for lateral structures. The blades are at two depths, shallow and deep. The components of the system are preferably of plastic material.

A method and system for femoral condylar resection arthroplasty of the knee, which preserves the undamaged meniscus, whether by arthroscopy arthrotomy, and only replaces the damaged area of the femoral condyle. In one embodiment, only the distal femoral condyle is replaced and the posterior femoral condyle remains intact. In another embodiment, both the distal and posterior femoral condyle are replaced. The method and system include placing an intercondylar insert between articular surfaces of a distal femoral condyle and a tibial plateau with the knee in extension. The method and system also includes a box retractor having four right angle blades, two for medial structures and two for lateral structures. The blades are at two depths, shallow and deep. The components of the system are preferably of plastic material. The method and system preserve the meniscus on top of the tibial plateau.

An orthopaedic surgical instrument configured to assist a surgeon seat or engage a femoral component with a tibial bearing or other tibial component. The instrument may include a displacement device configured to displace the tibia and femur to permit the surgeon to position a femoral component for seating on a tibial bearing and/or a retaining mechanism configured to maintain the tibial bearing in rotational alignment with the femoral component while seating the femoral component on the tibial bearing.

Methods and systems are provided for a hinge knee system. A hinge knee system may comprise a femoral component; an insert; a tibial tray configured to be coupled to the insert; a tibial bushing configured to be disposed between the tibial tray and the insert; a poly locking screw configured to secure the tibial tray to the insert; a hinge box configured to be disposed between the femoral component and the insert; one or more cross-pin bushings configured to be disposed within the hinge box; a cross-pin configured to secure the hinge box to the femoral component; a hinge post configured to couple the hinge box to the tibial tray; and a hinge post set screw configured to secure the hinge box to the hinge post.

According to one example, a posterior-stabilized femoral prosthesis for a knee arthroplasty. The femoral prosthesis can include medial and lateral condyles, a femoral cam and a recess. The medial and lateral condyles can be shaped to articulate with a tibial articular surface of a tibial bearing component through a range of motion, in which full extension corresponds to zero degrees flexion of a knee joint and positive flexion corresponds to greater than zero degrees flexion of the knee joint. In a sagittal plane, the medial and lateral condyles can define medial and lateral multi-radius curves, respectively. The medial multi-radius curve can have a single common radius swept through a first angular extent to define a single arc length that extends from between substantially 20 degrees flexion to substantially 90 degrees flexion, inclusive.

An orthopedic device includes a femoral implant having a non-custom internal bone engagement surface. The femoral implant includes at least nine parameters adjusted preoperatively to correspond to a specific patient. The parameters can include patient-specific lengths, such as, for example, medial and lateral condyle widths and notch height, and patient-specific medial and lateral angles.

A joint prosthesis system includes a femoral component that has an articular side, a bone facing side, and medial and lateral condylar portions. The medial and lateral condylar portions at least partially define an intercondylar recess located therebetween and have a first concave surface extending in a mediolateral direction across the medial and lateral condylar portions. A first modular component has a second concave surface and is connectable to the femoral component such that, when the first modular component is connected to the femoral component, the first and second concave surfaces come together to form a transverse opening extending in the mediolateral direction. A first tibial assembly has a baseplate component and a head extending therefrom. The head defines an axle opening that extends therethrough. An axle is configured to be received within the transverse opening and axle opening so as to connect the tibial assembly to the femoral component.

According to one example, a posterior-stabilized femoral prosthesis for a knee arthroplasty. The femoral prosthesis can include medial and lateral condyles, a femoral cam and a recess. The medial and lateral condyles can be shaped to articulate with a tibial articular surface of a tibial bearing component through a range of motion, in which full extension corresponds to zero degrees flexion of a knee joint and positive flexion corresponds to greater than zero degrees flexion of the knee joint. In a sagittal plane, the medial and lateral condyles can define medial and lateral multi-radius curves, respectively. The medial multi-radius curve can have a single common radius swept through a first angular extent to define a single arc length that extends from between substantially 20 degrees flexion to substantially 90 degrees flexion, inclusive.