A method of implanting a medical implant comprises the steps of reaming a tapered bore to a first depth and a counter bore, coaxial to the tapered bore, to a second depth less than the first depth in a long bone. The counter bore has a larger diameter than the tapered bore. The method further includes inserting a medical implant into the tapered bore and counter bore. The medical implant includes a stem and a collar disposed around a portion of the stem. Inserting the medical implant include fully seating a portion of the stem into the tapered bore to form a press-fit between the stem and the long bone. The collar may be moved into the counter bore to a depth less than the second depth.

A modular system for a surgical device is provided. The modular system includes an adjustable-length portion having a first end and a second end, the first end spaced apart from the second end along a length of the adjustable-length portion, and the adjustable-length portion including an actuator configured to be activated to change the length of the adjustable-length portion. The adjustable-length portion is configured to be secured to one or more bones. The modular system further includes a first fixed-length portion configured to attach to the first end of the adjustable-length portion to form a first surgical device.

A bone plate for treating periprosthetic fractures includes a head portion sized and shaped so that, in an operative position, a proximal end thereof aligns with a vastus ridge of a greater trochanter of a femur. The plate also includes a shaft portion extending distally from the head portion. The shaft portion includes offset holes to receive bone fixation elements therethrough. Each of the offset holes includes a first hole positioned on a first side of a longitudinal axis of the plate and a second hole positioned on a second side of the longitudinal axis opposite the first side so that bone fixation elements inserted therethrough extend anterior and posterior of a prosthetic received within the femur. The first and second holes are staggered relative to one another along a length of the shaft portion and extending beyond longitudinal edges of the shaft portion.

A bone plate for treating periprosthetic fractures includes a head portion sized and shaped so that, in an operative position, a proximal end thereof aligns with a vastus ridge of a greater trochanter of a femur. The plate also includes a shaft portion extending distally from the head portion. The shaft portion includes offset holes to receive bone fixation elements therethrough. Each of the offset holes includes a first hole positioned on a first side of a longitudinal axis of the plate and a second hole positioned on a second side of the longitudinal axis opposite the first side so that bone fixation elements inserted therethrough extend anterior and posterior of a prosthetic received within the femur. The first and second holes are staggered relative to one another along a length of the shaft portion and extending beyond longitudinal edges of the shaft portion.

A bone screw assembly includes a first body, a second body, and a thread locking assembly that may couple the first body with the second body. The first body includes a proximal portion, a distal portion that may pierce bone in response to rotation of the first body about the longitudinal axis, and a first threaded section that may engage bone. The second body defines a through hole that may receive the distal portion of the first body. The thread locking assembly includes a first thread locking section associated with the proximal portion of the first body, and a second thread locking section associated with the through hole of the second body. Either the first threaded locking section or the second threaded locking section deforms the other in response to rotation of the first threaded locking section relative to the second threaded locking section.

The present invention relates to an intramedullary nail for proximal femoral fractures. The intramedullary nail comprises an elongate body (1) with a longitudinal bore (2). The elongate body (1) includes a proximal portion (5) with an oblique transverse bore (7) for a proximal locking member and a distal portion (6) with at least one transverse bore (8) for a distal locking member. An inlet end of the oblique transverse bore (7) is configured as a recess (9) with a recessed surface (11). The recessed surface (11) is composed of recessed lateral surface portions (15) and a recessed proximal as well as a recessed distal surface portion (16 and 17 respectively). Each of the recessed lateral surface portions (15) is configured with at least one protuberance (18) for preventing or reducing the risk for misalignment of e.g. a reamer and, if misalignment occurs, this will not affect critical parts of the intramedullary nail.

A fixing mechanism for a closed distal femur osteotomy according to an exemplary embodiment of the present invention is installed on a femur incised by the closed distal femur osteotomy, and the fixing mechanism includes: a body portion which is in close contact with the femur and has a plurality of coupling holes and an oblong hole; a head portion which is connected to one end of the body portion and has a plurality of coupling holes; screws which are inserted into the coupling holes; and a sliding screw which is inserted into the oblong hole by adjusting a coupling position, in which the head portion has a predetermined inclination angle in an upward direction based on a lower surface of the head portion.

A fixing mechanism for a closed distal femur osteotomy according to an exemplary embodiment of the present invention is installed on a femur incised by the closed distal femur osteotomy, and the fixing mechanism includes: a body portion which is in close contact with the femur and has a plurality of coupling holes and an oblong hole; a head portion which is connected to one end of the body portion and has a plurality of coupling holes; screws which are inserted into the coupling holes; and a sliding screw which is inserted into the oblong hole by adjusting a coupling position, in which the head portion has a predetermined inclination angle in an upward direction based on a lower surface of the head portion.

This invention relates to a coupling for an orthopaedic device. Also disclosed in an orthopaedic device comprising a coupling of the invention and method for the use of the orthopaedic device. The orthopaedic device finds utility as a bolt apparatus for fixation of bones such as fractures of the femur, although it may be used in any suitable bone.

A bone fixation assembly including a first member, a second member and a link member extending between the first member and the second member. The first and second members each including a slot formed in an axial surface of a shaft extending along a longitudinal axis. The link member including a first lateral side being slidably received in the slot of the first member and a second lateral side being slidably received in the slot of the second member.