A femoral nail includes a proximal section, a distal section remote from the proximal section, and an intermediate section disposed between the proximal section and distal section and having first and second curved portions. The first curved portion is positioned closer to the proximal section than the second curved portion. The second curved portion is curved in a first plane, and the first curved portion is curved in the first plane and a second and third plane.

In one example, a system has an insertion handle that can be coupled to an intramedullary nail and includes a first coupler that defines one of a recess and a projection, and one of a latch and an abutment surface. The system has an aiming guide that includes a guide body that defines at least one alignment aperture therethrough. The aiming guide includes a second coupler that can couple the guide body to the first coupler such that the at least one alignment aperture is positioned to guide an instrument towards at least one bone-anchor fixation hole of the intramedullary nail. The second coupler defines another of the recess and the projection, and another of the latch and the abutment surface. The first and second couplers can couple to one another by receiving the projection in the recess and by engaging the latch with the abutment surface.

A bone screw extraction device includes a shaft extending longitudinally from a proximal end to a distal tip, a distal portion of the shaft including a tissue-receiving cavity extending proximally thereinto from the distal tip, the distal tip including a plurality of fingers configured to be received within a driving recess of a bone screw and a plurality of channels extending longitudinally along an exterior surface of the distal portion, each of the plurality of channels extending between adjacent ones of the plurality of fingers.

A minimally invasive hip arthroplasty technique involves intramedullary insertion of an elongate femoral broach into a femur. The broach has a superior lateromedial transverse bore. A reaming rod is then located through the transverse bore and the neck of the femur. A cutting head is coupled to a distal end of the reaming rod via an incision. An orthogonal drive arm of an arthroplasty jig may also be inserted behind the cutting head to press the cutting head to ream the acetabulum while the reaming rod rotates the cutting head.

Disclosed is an intramedullary nail comprising a shaft having a length, a constant diameter, an exterior bone contacting surface, a leading (or distal) end and a trailing (or proximal) end, wherein the leading end is progressively tapered and comprises a well or cup, adapted to receive the tip of a standard K-wire, the trailing end comprises a driving fitting adapted for attachment to a driving tool for insertion of the nail into the prepared bone, the trailing end may optionally include an internal thread that can be used to secure the nail to a drill guide which can also function as an insertion handle, and the nail's shaft may also optionally be equipped with threaded and/or unthreaded cross-drilled holes for insertion of unicortical locking screws and bone screws, respectively, once the nail is placed as desired.

A device includes an outer sleeve of flexible material forming an outer conduit extending longitudinally therethrough for the insertion of a bone treatment device (“BTD”) to target sites within a living body. A distal opening of the outer conduit is open so that, when the outer sleeve is in a desired position within the body, BTD is inserted through the outer conduit exits the outer sleeve adjacent to a target portion of a bone. The device also includes an inner sleeve received within the outer sleeve and defining an inner conduit within the outer conduit to form a protective covering. The inner sleeve is split longitudinally. Portions of the inner sleeve on opposite sides of the split are coupled to one another so that a diameter of the inner conduit is adjustable in response to forces exerted thereon by one of BTD and tissues surrounding the outer sleeve.

An implant extractor assembly that includes a handle, and a mount connectable to the handle. The mount includes a main body, a quick connect about a proximal end of the main body, and an L-shaped connector about a distal end of the main body. The L-shaped connector includes a through hole having a longitudinal axis transverse to a longitudinal axis of the main body.

A method of performing an arthroplasty procedure on a shoulder that includes the following steps, among others. A step of accessing a posterior aspect of the humeral head. A step of cutting the humeral head in a posterior-to-anterior direction so as to form a resected bone surface. A step of cutting at least one channel into the resected bone surface and through a posterior aspect of the humeral cortex, the at least one channel extending in a posterior-anterior direction. A step of attaching a first component including a base plate of a joint replacement system to the resected bone surface, the base plate including at least one fin that is received within the at least one channel. A step of attaching a second component of the joint replacement system to the base plate.

A tool for manipulating the position of an implantable medical device. In some embodiments the tool includes a readily releasable grasping feature that securely couples the implant to the tool while the implant is being manipulated. Preferably, the user can simply release the implant from the tool. The tool in other embodiments includes an internal pathway for accommodating non-linear implants, such as curved rods, wires, or nails. In yet other embodiments the tool has multiple handles, each handle being adapted and configured to permit manipulation of the implant in a single predetermined orientation, but with alternative handles for grasping in different hand orientations. Still further embodiments pertain to a kit having a tool and a plurality of collets, each collet being adapted and configured to grasp a different size of implant, but each collet having identical tool coupling features such that any collet in the kit can be used with the single tool. Still further, yet other embodiments pertain to tools having quick release mechanisms for the acceptance or removal of a collet, and some include external features for preventing inadvertent release of the collet when coupled to an implant.

The present device described herein is intended to effect the removal of an intramedullary component of an orthopaedic prosthetic implant. The extraction device utilizes a hook which can be secured to the implant, particularly the neck of a femoral prosthetic component. The hook is attached to an elongated member that contains two striking surfaces. A force applied to the striking surface(s) is transmitted to the prosthesis so as to extract the implant from the intramedullary cavity of a bone.