A compression force magnifier comprising: an engaging surface for attaching to a bone plate; a ramped component above the engaging surface, the ramped component having a bottom surface adjacent the engaging surface and an angled upper surface; and a hole extending through the ramped component and the engaging surface.

An apparatus for stabilization of a bone fracture site, including a wire that is configured to be positioned through corresponding holes of a first bone and an adjacent second bone; and a tension washer coupled to a first end of the wire, the tension washer rotatable about the first end of the wire, wherein the wire is configured to be positioned through the corresponding holes of the first and the second bone, the tension washer is configured to be positioned proximate a first surface of the second bone, wherein the tension washer includes a first surface having a length longer than a diameter of the corresponding holes of the first and the second bones, wherein the tension washer is configured to rotate such that the first surface of the tension washer abuts the first surface of the second bone.

A band tensioner includes a shank, a head, and a tensioning mechanism disposed within the head. The shank is configured to secure the band tensioner to a first bony element and the head is secured to an end of the shank. The tensioning mechanism is configured to lengthen and shorten a flexible implant relative to the head of the band tensioner.

The present invention discloses a moveable bone plate implantation system, controlled movement assembly, and method. The moveable bone plate implantation system includes a movement instrument, translation member removeably coupled to the movement instrument, and a bone plate detachably connected to the translation member. The controlled movement assembly includes a translation member and a bone plate. The translation member includes a shaft with a first end and a second end and a head portion at the first end. The head portion includes an engagement groove recessed into the head portion and a lip extending out from a bottom portion of the engagement groove. The bone plate includes an engagement aperture for receiving the engagement groove and the lip engages a bottom surface of the bone plate during translation of the bone plate. A method for moving bones is also disclosed.

A system for bone transport is provided, the system comprising: an adjustable length implant configured for intramedullary placement and comprising a first end configured to be coupled to bone and a second end configured to be coupled to bone, wherein the first end and the second end are displaceable relative to each other along a longitudinal axis; and a driving element configured to be non-invasively activated to displace the first and second ends relative to one another along the longitudinal axis; and a support member having distal and proximal ends, wherein the support member includes a longitudinally extending slot disposed between the distal and proximal ends of the support member, the slot having opposing ends, wherein the slot is configured to pass an elongate anchor such that the elongate anchor is slidable between the first end and the second end of the slot.

A method and system for reducing and affixing two separated bone segments, the system having a bone plate with a pair of positioning slots, and a pair of elongated manipulating members with anchoring structures, the anchoring structures sized to pass through the positioning slots and for advancement into the bone segments. The bone plate is loosely mounted to the bone segments across the separation gap and a manipulating member is screwed into each bone segment through a positioning slot. The manipulating members are then used to reposition the bone segments by moving them together longitudinally within the slots. Fixation bone screws are inserted into the bone segments through screw receiving apertures to securely affix the bone plate to the repositioned bone segments. The manipulating members are then removed.

A compression device made of a superelastic material having a peripheral portion with an upper surface, a lower surface, and a central opening extending therethrough is provided. One or more resilient teeth project inward of the peripheral portion into the central opening and are configured to exert a biasing force in an axial direction when deformed in a direction opposite the axial direction.

A bone distractor device and method of bone distraction in osteogenesis, the bone distractor having releasable bone plates, created using computer-aided design to conform to the surface of a bone, attached to a distraction mechanism, wherein the distractor device is affixed to the bone, the distraction mechanism is removed from the bone plates, the osteotomy is performed using a guide edge provided on at least one of the bone plates, and the distraction mechanism is re-attached to the bone plates such that distraction can be initiated.

A pectus bar pectus bar assembly can include a pectus bar and a stabilizer. The pectus bar can include a first portion including a first periphery and a second portion opposite the first portion. The stabilizer can include a stabilizer body including a recess engageable with the second portion. The stabilizer can also include a locking cam rotatable within the body to secure the stabilizer to the first portion.

A fixation device is disclosed for the fixation of proximal humerus fractures includes an implantable humerus plate having a proximal portion adapted to be positioned at a head and medial calcar of the humerus, a distal portion adapted to be positioned along a shaft of the humerus, and a plurality of calcar openings provided through the proximal portion adapted to receive calcar fasteners that extend into the medial calcar. The calcar fasteners are grouped into a rafted configuration and the tips of each fastener are positioned into the calcar region so that torsional forces bearing upon the calcar regions are distributed into the rafted fastener support, thereby avoiding varus collapse of the humerus head after fixation of the fracture.