Provided is a nested screw assembly and a related method for fusing a joint between two bones using the nested screw assembly, where the nested screw assembly includes a cannulated outer screw and an inner screw.

A compression screw for applying compression at a bone joint. The compression screw includes an axial screw body extending from a distal end to a proximal end with the distal end including a series of bone engaging threads configured to be self-drilling and self-tapping and the proximal end including a head which defines a radially extending shoulder. At least one proximal rotary cutting structure is defined proximally of the bone engaging threads. The at least one proximal rotary cutting structure is configured to be self-drilling such that a proximal portion of the axial screw body cuts into and advances within a bone of the bone joint as the axial screw body is advanced. A method of inserting the compression screw is also provided.

A driving pin can be used for installing a bone plate on a bone. In some examples, the driving pin has a driving pin body extending from a proximal end to a distal end. The driving pin body may define at least three regions of different cross-sectional thickness, including a bone penetrating region adjacent the distal end, a driving region adjacent the proximal end, and a bone plate orienting region between the bone penetrating region and the driving region. In general, the bone penetrating region has a smaller cross-sectional thickness than the bone plate orienting region and the bone plate orienting region has a smaller cross-sectional thickness than the driving region. The bone plate orienting region may be sized to conform to the size of a fixation hole extending through bone plate.

A tool assembly includes a universal, intervertebral bone fusion spacer for insertion into a disc space between a first vertebral body and a second vertebral body and fusion of the first vertebral body to the second vertebral body via biological bone fusion and screw fusion, and a tool for manipulating and inserting the universal, intervertebral bone fusion spacer into the disc space between the first vertebral body and the second vertebral body to provide fusion of the first vertebral body to the second vertebral body via biological bone fusion and screw fusion.

A method for fusing bones using a guide pin and a fastener is disclosed. The method includes inserting a guide pin into two bones. The guide pin including at least one radial marking. The method also including imaging the two bones and guide pin and analyzing the position of the at least one radial marking of the guide pin relative to the two bones. In addition, the method includes selecting a fastener, inserting a drill over the guide pin, drilling an opening through at least one of the two bones, and inserting the fastener into the opening. The guide pin may include an exterior surface with a first end and a second end, a cutting edge at the first end, and at least one radial marking near the first end. A system including a guide pin, a fastener, and a drill is also disclosed.

A method comprising the steps of: providing an implant support including a first portion frangibly connected to a second portion that defines an implant cavity and supports a bone fastener; connecting a surgical introducer instrument with the implant support and engaging the surgical introducer instrument with the bone fastener; percutaneously introducing the surgical introducer instrument, implant support and bone fastener assembly to a surgical site including tissue; attaching the second portion with the bone fastener to the tissue; and removing the first portion from the second portion. Systems, fasteners and instruments are disclosed.

A bone screw, such as a pedicle screw, comprises an anchor portion and a sleeve portion, the anchor portion including an angled or curved portion and an externally threaded portion. The sleeve portion having an external thread for engaging bone, and a threaded internal bore for engaging the externally threaded portion of the anchor portion.

Apparatus and methods for treating a spinal body having an interior. The method may include augmenting a height of the spinal body by radially expanding a first mesh cage in the interior. The method may include removing the first cage from the interior. The method may include supporting the spinal body in an elevated position by radially expanding a second mesh cage in the interior. The method may also include surgically enclosing the second cage in the interior.

A bone screw comprising a shaft having a wall, the wall including a minor diameter and at least one thread having an external thread form. The thread form including a first portion comprising a crest of the thread form and a second portion extends between a minor diameter of the thread form and the first portion. The first portion having a solid configuration relative to the second portion. In some embodiments, systems, spinal constructs, surgical instruments and methods are disclosed.

A bone fixation device includes (a) a threaded shaft extending from a proximal end to a distal end; (b) a head located at the proximal end of the shaft; (c) a connector threadably engaging the threaded shaft and movable therealong; and (d) an extension member movable between an insertion configuration for insertion through an opening in a cortex of a bone to a locked configuration when pressed against an inner surface of the cortex. The profile of the wing in the locked configuration in the plane perpendicular to the longitudinal axis of the shaft is increased relative to the insertion configuration to distribute forces transmitted between the bone fixation apparatus and the bone over an increased area of the cortex.