Various cannulated bone implants and methods of using the cannulated bone implant are disclosed. The cannulated bone implant can include a proximal portion, a proximal end, a distal portion, a distal end, a transition portion, a threaded portion, a finned portion and a central passage. The transition portion can comprise a bend positioned between the proximal portion and the distal portion. The threaded portion can be positioned along the proximal portion between the proximal end and the transition portion. The threaded portion can be configured to secure the implant into a bone of a patient. The finned portion can be positioned along the distal portion between the transition portion and the distal end. The finned portion can be configured to prevent migration and/or rotation of the implant in use. The central passage can extend linearly from the proximal end of the implant to the distal end of the implant.

In a method and system for producing an implant, the latter is designed with one or more surfaces extending in the longitudinal direction of the implant. Two or three production stages can be used. In one stage, either a topography with a long wave pattern is produced by means of cutting work, or laser bombardment or further cutting work is used to produce a topography with an intermediate-length wave pattern. In addition, an oxidation process or shot-peening or etching is used to produce an outer layer. When using two of said production stages, said cutting work or said laser bombardment or further cutting work is followed by the oxidation process or the shot-peening or etching method. When using all three production stages, cutting work is followed by laser bombardment, or further cutting work, which in turn is followed for example by the oxidation process. The invention also relates to an implant which is produced using the method and is identified, ordered and produced using the system. The invention permits effective treatment of different implant situations.

Various cannulated bone implants and methods of using the cannulated bone implant are disclosed. The cannulated bone implant can include a proximal portion, a proximal end, a distal portion, a distal end, a transition portion, a threaded portion, a finned portion and a central passage. The transition portion can comprise a bend positioned between the proximal portion and the distal portion. The threaded portion can be positioned along the proximal portion between the proximal end and the transition portion. The threaded portion can be configured to secure the implant into a bone of a patient. The finned portion can be positioned along the distal portion between the transition portion and the distal end. The finned portion can be configured to prevent migration and/or rotation of the implant in use. The central passage can extend linearly from the proximal end of the implant to the distal end of the implant.

Various cannulated bone implants and methods of using the cannulated bone implant are disclosed. The cannulated bone implant can include a proximal portion, a proximal end, a distal portion, a distal end, a transition portion, a threaded portion, a finned portion and a central passage. The transition portion can comprise a bend positioned between the proximal portion and the distal portion. The threaded portion can be positioned along the proximal portion between the proximal end and the transition portion. The threaded portion can be configured to secure the implant into a bone of a patient. The finned portion can be positioned along the distal portion between the transition portion and the distal end. The finned portion can be configured to prevent migration and/or rotation of the implant in use. The central passage can extend linearly from the proximal end of the implant to the distal end of the implant.

One embodiment of the invention includes a sinus tarsi implant with a proximal portion that includes a spherical portion. The spherical portion may include apertures for tissue in-growth. The implant design limits patient discomfort due to pressure points. Other embodiments are disclosed.

The invention relates to methods, devices, and systems for an improved bone fixation screws used as fastening devices to stabilize bone to its adjacent substrate. More particularly, the invention relates to methods, devices and systems for an improved, low profile, multi-threaded screw with mating features adapted to allow other multi-threaded screws in close proximity.