Abstract: Apparatuses for distal fibula replacement and related methods are described herein. The apparatus generally includes an implantable stem component including a proximal portion that is contoured to have an anterior overlap with a portion of a fibula bone of a patient, and a distal portion that defines one or more channels configured to receive one or more tendons of the patient. Related methods include placing the apparatus on the portion of the fibula bone of the patient.

Abstract: A method for centering a stem of an implant at an implantation site. The method includes implanting at the implantation site the implant having a sleeve rigidly mounted to the stem of the implant, the stem extends through an interior area of the sleeve. The method further includes compressing the sleeve by applying force to the sleeve to expand a mesh portion of the sleeve outward from the stem and into engagement with sidewalls of the implantation site to thereby center the stem at the implantation site.

Abstract: A system for securing a prosthesis in a bone includes a reference anchor for insertion into a cavity of a bone to define a reference point during prosthesis implantation, the reference anchor including a body having a mating feature and a gripping projection for engaging an inner surface of the bone cavity. The system also includes a stem having a terminal end adapted to mate with the engagement feature of the reference anchor such that the stem is disposed at a desired position relative to the reference point.

Abstract: Arthroplasty devices having improved bone in growth to provide a more secure connection within the body. Different embodiments disclosed include devices having threaded intramedullary components, devices configured to receive bone growth promoting substances, devices with resorbable components, and devices configured to reduce shear stress.

Abstract: A joint prosthesis (10) for cooperation with a long bone (12) and a second bone (26) for use in arthroplasty is provided. A cavity (20) is formed in the long bone (12) and defined by an inner wall (30) of the long bone (12). The prosthesis (10) includes a stem component (32) including a distal portion (34) of the stem component (32) for placement at least partially within the cavity (20) of the long bone (12) and for securing to the long bone (12). The stem component (32) defines a longitudinal axis (36) of the stem component (32). The prosthesis (10) also includes a second component (32) securable to the second bone (26) and for cooperation with the stem component (32). The prosthesis (10) further includes a bearing (40) for placement in the cavity (20) between the stem component (32) and the long bone (12) so that the distal portion of the stem component (32) is spaced from the inner wall (30) of the long bone (12).

Abstract: Modular orthopedic implants for joint reconstruction and methods of use therein are described that comprise base, body, and stem components. The base receives an articulating portion on a first end and has a connector on a second end that mates with the body and stem. The tubular body has a tissue engaging external portion, and an internal bore. The stem has an elongated shaft configured to be situated inside of a bone, and a top end having a connector. In a group of two-connection embodiments, the base mates with the body to form a first connection and the base mates with the stem to form a second connection. In a group of three connection embodiments, the stem and body also mate to form a third connection. The connections are combinations of interference fit connections such as press fit, multiple press fit and tapered fit connections.

Abstract: The present invention provides a distal tip for the positioning of artificial joint stem that is capable of reliably guiding the insertion of the stem of the cementless artificial joint into a bone canal and positioning the distal end portion of the stem that is inserted into the bone canal at a planned position, thereby to maintain the entire stem in a favorable posture in the bone canal, and prevent osteolysis and loosening of the artificial join even when the distal tip is used.

Abstract: An implant is formed of an expandable material. An opening is formed in a bone in a patient's body. At least a portion of the implant is positioned in the opening in the bone in the patient's body. The implant is retained against movement relative to the bone in the patient's body by absorbing body fluid with the implant and expanding the implant while the implant is disposed in the opening in the bone in the patient's body. The implant may be a hip replacement member.

Abstract: The figures show a cementable shaft prosthesis (1) comprising a centering apparatus (2) of plastic which can be pushed on at its distal shaft end (3) and which forms a cavity (4) to the distal shaft end (3). Between the distal shaft end (3) and the centering apparatus (2) there exists a clamping connection which enables a deeper sinking in of the shaft end into the cavity in the distal direction. The clamping connection is achieved by a spigot (7) which is formed on at the centering apparatus (2) in the cavity (4) and which protrudes in into a conical bore (5) of the shaft end (3) in the proximal direction.

Abstract: The figures show a cementable shaft prosthesis (1) comprising a centering apparatus (2) of plastic which can be pushed on at its distal shaft end (3) and which forms a cavity (4) to the distal shaft end (3). Between the distal shaft end (3) and the centering apparatus (2) there exists a clamping connection which enables a deeper sinking in of the shaft end into the cavity in the distal direction. The clamping connection is achieved by a spigot (7) which is formed on at the centering apparatus (2) in the cavity (4) and which protrudes in into a conical bore (5) of the shaft end (3) in the proximal direction.

Abstract: A prosthesis provided with a stem at least part of which is enclosed in a mantle and which is for insertion in a bone cavity and attachment thereto by cement, said mantle having a wall thickness which is increased towards its proximal end to provide an outwardly projecting proximal balcony and which is dimensioned and adapted to locate the stem in a predetermined position within the cross-sectional area of the bone cavity at or towards the proximal end thereof.

Abstract: An improved method for reinforcing a prosthetic implant and an implant product are provided. The method includes embedding a support structure in a bed of bone cement surrounding the distal end of a prosthetic device. The support structure counteracts hoop-stress imparted to the implant, decreases creep of the bone cement, and further reinforces the bone cement bed. In various embodiments, the support structure can be in the form of a metal coil, in the shape of a wire mesh, or in the design of a coil reinforced centralizer. Prior to being implanted, the support structure can be precoated with bone cement or can be prefabricated with a prosthetic device.

Abstract: A prosthetic trial for a femur includes a curved stem rotatably engaged with a body that defines a trunnion. A locking mechanism inhibits rotation of the body with respect to the stem. The trial is configured for either left or right femoral implantation by rotating the stem with respect to the body to orient the stem in the appropriate direction.