This invention provides tools and kits for removal of a graft and/or for implantation of a solid or semi-solid form or graft within an appropriate desired tissue minimizing the potential for or actual breakage of the implant or graft during the stated process. Kits comprising such tools and methods making use of same are provided, as well.

Methods and devices are provided for using a bone anchor driver for driving inner and outer set closure mechanisms or set screws into a bone anchor assembly. In one embodiment, a bone anchor driver is provided that includes an outer shaft configured to engage an outer set screw coupled to a bone anchor assembly, an inner shaft disposed within the outer shaft and configured to engage an inner set screw coupled to the bone anchor assembly, and a torque limiting mechanism configured to automatically switch between a first position in which it is disengaged from the inner shaft and is engaged with the outer shaft, and a second position in which it is disengaged from the outer shaft and is engaged with the inner shaft.

Implantable fixation devices for rejoining opposed portions of a separated bone. The devices include plates that may be affixed to a rib and realign separated portions of the rib or other body part. The devices may also include various locking mechanisms that receive a cable that may be used to realign and bring together separated portions of a bone or other body part. The devices may further include plates that may be affixed to a sternum and realign separated portions of the sternum or other body part.

A self-drilling bone fusion screw apparatus is disclosed which includes at least first and second sliding boxes. A first screw member having a tapered end and a threaded body is disposed within the first sliding box, and a second screw member having a tapered end and a threaded body disposed within the second sliding box. An adjuster adjusts the height of the sliding boxes. The screw members are screwed into vertebral bodies in order to fuse the vertebral bodies together. A plurality of the self-drilling bone fusion screw apparatuses may be attached together and/or integrated via a plate or cage. Also disclosed is a cervical facet staple that includes a curved staple base and at least two prongs attached to the bottom surface of the curved staple base.

An endosseous screw assembly for an internal fixation system, comprising: a stem extending longitudinally and having at least one threaded distal portion for allowing anchoring to a bone site of a patient; a connection sleeve suitable for introduction inside a connection hole of a fixation member; and a ring nut rotatably mounted on the connection sleeve. The ring nut may be threadably mounted on the connection sleeve and may comprise a rim with teeth designed to cooperate with a step formed on the fixation member, in the vicinity of the connection hole, so as to prevent rotation of the ring nut with respect to the fixation member when the connection sleeve is introduced into the connection hole of the fixation member. The ring nut may further comprise multiple deformable interference fit components which lie along a conical portion of the connection sleeve.

A fixing system for cervical vertebrae includes a fixing apparatus for cervical vertebrae in which a cervical vertebrae-fixing plate is made close contact with cervical vertebrae and a screw is inserted into the cervical vertebrae through a screw hole formed in the cervical vertebrae-fixing plate, and a driver that rotates the screw. Here, clips for holding the inserted screw are provided in the screw hole, a convex portion is positioned at the rear of a front end portion of the driver which is fitted in a groove on the screw, and the driver loosens the inserted screw while spreading the clips using the convex portion, when the inserted screw is loosened.

Multi-function driver instruments and related methods are disclosed herein, e.g., for applying a fastener to a bone anchor. In some embodiments, a single instrument can include features for driving multiple different types of fasteners, independently driving multiple different components of a single fastener assembly, and so forth, with the instrument being switchable between multiple operating modes to select the feature needed for a particular function. The instrument can include features for retaining a fastener to the instrument, e.g., during initial insertion of the fastener.

A distally expanding facet implant with integrated plate and delivery device for distracting a cervical intervertebral facet joint to treat symptoms of degenerative processes of the cervical spine, including widening the intervertebral space and foramina while maintaining or restoring natural lordosis and preventing kyphosis. The distally expanding facet implant with integrated plate and delivery device generally includes opposed plates having distal and proximal ends, a diverting member having a stationary component and a moveable component comprising a diverting nut with a substantially fusiform cross-section between the plates, and a driving member comprising an elongated screw rotationally coupled with the moveable component. Rotation of the screw causes an engagement surface of the diverting nut to slide against a complementary engagement surface of the stationary component. The dimension of the nut present between the distal ends of the plates increases as the surfaces slide against each other causing the distal ends to divert without diverting the proximal ends. Deployed within a facet joint, the implant produces distraction of the facet joint and widening of the intervertebral spacing and foramina while maintaining natural lordosis and preventing kyphosis.

Multi-function driver instruments and related methods are disclosed herein, e.g., for applying a fastener to a bone anchor. In some embodiments, a single instrument can include features for driving multiple different types of fasteners, independently driving multiple different components of a single fastener assembly, and so forth, with the instrument being switchable between multiple operating modes to select the feature needed for a particular function. The instrument can include features for retaining a fastener to the instrument, e.g., during initial insertion of the fastener.

Disclosed herein is a guide device and a driver, which allows for the preparation of an anatomic cavity for screw fixation of an implant or spacer, including the guidance for hole preparation, and guidance for insertion of screws, and or anchors, while selecting the amount of rigidity, and selecting the amount of visibility.