Arthroplasty implant systems and procedures are disclosed herein. In an embodiment, an arthroplasty implant of an arthroplasty system includes a shape memory material connecting member attached to two points of fixation of the arthroplasty implant.

Compression devices for joining tissue and methods for using and fabricating the same.

Embodiments may include an attachable fastener, which may include a bondable material that may be secured to the end of an end effector. Vibration may be tuned to occur at a distal end of the fastener. Accordingly, the fastener may be used to generate heat at a distal point of contact. If the contact surface contains bondable material, that material may be softened. If the fastener includes bondable material at the point of contact, that material may also be softened by heat produced by vibration at the contact area. A hard implant or another polymeric material may function as the anvil.

Systems, devices, and methods for performing Lapidus bunionectomy procedures are disclosed. An example method includes inserting a plurality of metatarsal pins into the first metatarsal at a first predetermined spacing relative to the first tarsometatarsal (TMT) joint, excising the first TMT joint by cutting the bases of the first metatarsal and the first cuneiform proximate the first TMT joint, inserting a plurality of cuneiform pins into the first cuneiform at a second predetermined spacing relative to the first TMT joint, compressing the first TMT joint using a compressor block such that a cut face of the first metatarsal contacts a cut face of the first cuneiform, and fixing the first TMT joint using a bone plate and a plurality of bone screws. At least one of the plurality of bone screws may be a cross screw extending at an angle of less than 90 degrees relative to the bone plate and may anchor the resected first TMT joint to the second metatarsal or the second cuneiform to prevent recurrence of the bunion.

An implant and method for fixation of long bones. The implant provides rotational, longitudinal, and bending stability. The implant comprises one or more elongated members that span the intramedullary cavity of a long bone, a distal tip that expands radially relative to the long axis of the implant, and a locking mechanism at the proximal end of the implant.

A compression device may include, but is not limited to, a threaded body, a sliding element, and a compression element connecting the threaded body and the sliding element. According to one embodiment, upon implantation, the threaded body contacts a first bony fragment and the sliding element contacts to a second bony fragment. In at least one embodiment, upon being engaged, the compression element applies sustained tension to the sliding element and opposing tension to the threaded body, thereby compressing the first bony fragment and the second bony fragment along a plane of contact promoting healing.

The present invention relates to an implant system that comprises an implant, a handle configured to removably receive the implant, and, in some embodiments, a spacer tool configured to be mounted on the implant. In further embodiments, a k-wire is employed to guide the implant to a desired location. The handle has a hole for receiving a first portion of the implant. Using the handle to implant the implant, along with an associated spacer, provides a quick and convenient method for implanting the implant as described herein and in the associated drawings.

A compression device may include, but is not limited to, a threaded body, a sliding element, and a compression element connecting the threaded body and the sliding element. According to one embodiment, upon implantation, the threaded body contacts a first bony fragment and the sliding element contacts to a second bony fragment. In at least one embodiment, upon being engaged, the compression element applies sustained tension to the sliding element and opposing tension to the threaded body, thereby compressing the first bony fragment and the second bony fragment along a plane of contact promoting healing.

An assembly for locking a mutual position between a secondary body (3) positioned inside a primary body (2), comprising an adjustment assembly (10) connectable to the primary body (2) and the secondary body (3) for mutual adjustment thereof along a longitudinal axis (A). The adjustment assembly (10) comprises an adjustment head (11) comprising an adjustment interface surface (13) for adjusting the mutual position, and a locking element (14) comprising a locking interface surface (13a). The locking element (14) is positioned coaxially to the adjustment head (11), wherein the adjustment head (11) and locking assembly (14) are mutually moveable along the longitudinal axis (A).

Bone compression device with a primary body (2) having a primary bone fixation pin assembly (4, 5) extending at an angle to the longitudinal axis (A), and a secondary body (3) having a secondary bone fixation pin assembly (6, 7) extending at an angle to the longitudinal axis (A). The secondary body (3) is positioned in the inner bore (2a) and moveable with respect to the primary body (2) over an adjustment range. The primary body (2) comprises a guide pin (8) and the secondary body (3) comprises a guide slot (9) having an inner guide slot (9a), the guide pin (8) extending through the guide slot (9) and in contact with the inner guide slot (9a) during operation. An adjustment assembly (10) is provided which is connected to the primary body (2) and secondary body (3) for mutual adjustment thereof along the longitudinal axis (A).