Unicondylar tibia implant devices having a bone-facing, distal side that can be detailed with cement fixation features and may include any of or a plurality of grooves, pegs, fins, rails, cavities, and/or coating whereby the geometry of the implant device improves implant-to-cement or cement-to-bone fixation characteristics exceeding that of a traditional flat surface. The implant device may also include a proximal side facing away from the bone-facing, distal side and having a geometry that provides either articulation with (cartilage and meniscal substituting) or receipt of a secondary device coupleable to the implant device on the distal side of the secondary device that features an away-from-bone facing articulating feature. Additionally, the geometry of the implant device in anterior-posterior and medial-lateral directions, among other directions, provides a variety of improvements relative to currently available devices.

The invention describes an artificial knee joint, which includes a femoral condyle prosthesis and a tibial plateau prosthesis, and said tibial plateau prosthesis includes a medial tibial plateau prosthesis and a lateral tibial plateau prosthesis respectively disposed at both sides of the tibial plateau intercondylar eminence. The artificial knee joint further includes a locating pin for fixing the tibial plateau prosthesis. The bottom surface of said tibial plateau prosthesis is provided with a prosthetic notch, and the tibia below said tibial plateau prosthesis is provided with a tibial notch. Said prosthetic notch corresponds to said tibial notch, together forming a limiting hole for accommodating the locating pin. The cooperation between the locating pin and the limiting hole can ensure relative position stability and balance between the medial tibial plateau prosthesis and the lateral tibial plateau prosthesis.

A semi-condylar artificial knee joint includes a femoral prosthesis and a tibial prosthesis, and the cross-section of said tibial prosthesis is of a kidney-like type. The tibial prosthesis is disposed at one side of the tibial plateau intercondylar eminence and is located below the femoral prosthesis. The artificial knee joint further includes a locating pin for fixing the tibial prosthesis. The bottom surface of said tibial prosthesis is provided with a prosthetic notch, and below said tibial prosthesis is provided with a tibial notch. Said prosthetic notch corresponds to said tibial notch, and together forming a limiting hole for accommodating the locating pin. The cooperation between the locating pin and the limiting hole can ensure relative position stability and balance between the tibial prosthesis and the tibial plateau intercondylar eminence.

An example implant device includes a base having a surface that mates with bone, and a plurality of tapered protrusions positioned on the base and extending from the surface of the base that mates with bone. A surface of the plurality of tapered protrusions includes a textured surface to increase area for bone growth. An example method for inserting the implant device into bone includes forcing the plurality of tapered protrusions of the implant device into the bone, and securing the implant device in place without cement due to the plurality of tapered protrusions cutting into the bone for fixation of the implant device.

Apparatuses and systems including at least one of mounting and removal of a femoral component on a femur are disclosed. The instrument can include a handle, a plunger, first and second arms and a knob. The handle can define a recess. The recess can extend along a portion of an elongate length of the handle. The plunger can be moveably disposed within the recess and can be configured to extend through an opening in a distal end of the handle to engage a pad to contact the pad against the femoral component. The first and second arms can be pivotally coupled to the handle and can be pivotable relative to one another. The first and second arms can each have at least one coupling feature configured to engage with a corresponding second coupling feature in the femoral component. The knob can be configured to operatively actuate the plunger to move the plunger proximal/distal within the recess to engage the plunger with and disengage the plunger from the pad. The instrument can reduce surgical time by providing a secure grasping and manipulation of the femoral component.

A two-part joint replacement device for replacing damaged soft joint tissue, such as a meniscus or cartilage tissue. In one form, the device may include a free floating soft joint tissue replacement component comprising a first tissue-interface surface shaped to engage a first anatomical (bone and/or cartilage) structure of a joint having damaged soft tissue. The device may also include a free floating rigid base component comprising a second tissue-interface surface shaped to engage a second anatomical (bone and/or cartilage) structure of the joint. The free floating soft joint tissue replacement component may be shaped to slidably interface with the rigid base component. In another form, the free floating soft joint tissue replacement component and the rigid base component are fixed together.

A method of planning a procedure to fasten an implant to a bone includes displaying a model of the bone and a model of the implant on a display device. The model implant is positioned on the model bone in a desired implant position. A first boundary volume of a first fastener configured to fasten the prosthesis to the bone is also displayed on the display device. The first boundary volume represents a range of possible positions that the first fastener may have with respect to the prosthesis when fastened to the bone. The boundary volume may be used to determine a desired size, shape, and/or positioning of the fastener with respect to the bone.

A method includes obtaining a planned position of a first prosthetic component for implantation in a joint, obtaining positional data indicative of relative positions of bones of the joint, calculating, based on the positional data and the planned position of the first prosthetic component, a planned separation distance for the joint, facilitating adjustment of the planned position based on a desired separation distance by updating the planned separation distance in response to an adjusted planned position of the first prosthetic component, and guiding installation of the first prosthetic component in the joint in the adjusted planned position.

A surgical planning computing system and related surgical method include identifying an anatomical landmark of a patient's bony anatomy in a three-dimensional anatomical image and determining positioning criteria for an orthopedic prosthesis to be implanted into the patient's bony anatomy. The positioning criteria may define an alignment between the anatomical landmark and a feature of the orthopaedic prosthesis. A three-dimensional model of the orthopaedic prosthesis is positioned in the three-dimensional model based on the positioning criteria to provide a surgical plan for the implantation of the orthopaedic prosthesis.

A tibial insert includes an articular surface and a bottom surface opposite the articular surface. The bottom surface includes one or more bone-conserving features. In some embodiments, the bottom surface may be curved to match a curvature of the articular surface such that a thickness of the tibial insert is relatively constant. In other embodiments, the bottom surface may be relatively planar but include a protrusion extending from a planar base surface to maintain a minimum thickness of the tibial insert. The described features may be incorporated in a uni-compartmental tibial prosthesis, a bi-compartmental tibial prosthesis, or a total knee prosthesis.