A measurement device is provided for measuring a resected femoral head. The device comprises a base (102) with a support rod (104) extending transversely from the base and extending in a direction corresponding to a height of a resected femoral head. A femoral head support (108) is attached to a base proximate an end of the support rod (104) for supporting a severed end of a femoral head at a selected incline between about 30° and 60° relative to the base such that a height of the resected femoral head extends in the general direction of the support rod. A transverse height indicating arm (120) is adjustable up the height of the support rod (104) so as to measure the height of a resected femoral head (106) positioned on the femoral head support in use. The transverse height indicating arm (120) may carry adjustable offset indicating arm (122).

A hip joint prosthesis is formed of a coil spring having a middle section bounded by first and second opposite ends, with one of the two ends configured as a femoral fixing end and the other of the two ends configured as an acetabular fixing end. A central axis of the coil spring extends between the two opposite ends, providing a freely movable, flexible central coil linking the two ends.

A femoral prosthesis system for an orthopaedic hip implant and method of use is disclosed. The prosthesis system includes a femoral stem component that includes a core body and a casing that encases the core body. The casing can be additively manufactured such that the core body defines a predetermined orientation in the core body among a plurality of permissible predetermined orientations. The femoral stem component can further include a neck and a trunnion that extends from the neck. The neck can extend out with respect to the core body at a predetermined angle within a range of permissible predetermined angles.

A system and method for allowing any surgeon, including those surgeons who perform a fewer number of a replacement procedure as compared to a more experienced surgeon who performs a greater number of procedures, to provide an improved likelihood of a favorable outcome approaching, if not exceeding, a likelihood of a favorable outcome as performed by a very experienced surgeon with the replacement procedure. Force sensing is included to aid in quantifying installation of an implant, particularly a cup into a pelvic bone.

A femoral resurfacing prosthesis has an acetabular cup suitable for being implanted in an iliac bone in such a way to reconstruct a cotyloid cavity, a head suitable for being fixed to a femur in such a way to resurface the femur and suitable for being coupled with the acetabular cup in omnidirectional spherical coupling mode, and a stem fixed to the head and acting as guide of the head for positioning in the femur. The stem is separate from the head and is coupled with the head in screw or fit-in coupling mode. The head is made of cross-lined polyethylene or polyether-ether-ketone (PEEK) and the stem is completely made of a material that can be reabsorbed by the femoral bone.

A combined assembly of a medical implant and a sheath includes a medical implant having a surface and a sheath that is releasably secured to and protectively covers the surface of the medical implant. The sheath may protectively cover some or all of the surface of the medical implant. The sheath may be frictionally or mechanically retained on the medical implant. The medical implant may include both an inner surface and an outer surface, and the sheath may include both an inner sheath portion and an outer sheath portion. The sheath may include one or more perforations, a gripping structure that cooperates with a handling tool, or a handle.

An apparatus, system, and method may be used to replace a natural or artificial articular surface of a joint, and to repair a bone that is associated with the joint. In some embodiments, the apparatus, system, and method may include a joint replacement prosthesis with a prosthetic articular surface, a support structure securable to the bone, and a first attachment interface. The system may also include a bone plate with a bone engagement surface securable to the bone on either side of a fracture formed in the bone, or a damaged area of the bone. The bone plate may include a second attachment interface that is attachable to the first attachment interface of the joint replacement prosthesis in order to couple the bone plate to the joint replacement prosthesis.

A medical device for implantation in a hip joint of a patient is provided. The medical device comprises a prosthetic caput femur having least partially spherical portion and a releasing member. The releasing member is adapted to, in a first state, restrain the at least partially spherical portion in an acetabulum or a prosthetic acetabulum and, in a second state, to release the at least partially spherical portion from the acetabulum or the prosthetic acetabulum. The releasing member is further adapted to change from the first state to the second state and from the second state to the first state when a strain, exceeding a predetermined threshold, is exerted on the hip joint.

Embodiments of a system and method for assessing hip arthroplasty component movement are generally described herein. A method may include receiving data from a sensor embedded in a femoral head component, the femoral head component configured to fit in an acetabular component, determining information about a magnetic field from the data, and outputting an indication of an orientation, coverage, or a force of the femoral head component relative to the acetabular component.

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.