There is disclosed a bone fixation device that can include a cage having an optional mesh portion. The bone fixation device can be configured to couple a leg portion to a foot portion of a user's body. In at least one embodiment, the device includes at least one cage having a plurality of struts forming cells. There can be an optional mesh portion having a pre-set porosity that can be either constant or variable in density. In at least one embodiment there can be a cage portion which is substantially spherical shaped. Alternatively, the device can be substantially egg shaped. In at least one embodiment there can be a central post hole for receiving a post. In another embodiment at least one plate or shaft can connect to the cage.

A bone implant includes at least one bone-engaging surface designed to mate with an implant-engaging surface of a bone. In the preferred embodiment, the bone-engaging surface of the implant includes a wave pattern comprising at least one peak extending in a proximal direction or at least one valley extending in a distal direction. The implant-engaging surface of the bone also includes a matching wave pattern having at least one peak and valley. Upon mating the engaging surfaces, a bone-implant interface may be created wherein the peaks and valleys of the wave patterns are aligned. As a result, there is good surface contact area at the bone-implant interface which helps prevent loosening or rotating of the implant.

A bone implant composition and methods thereof include bone material made into various implant shapes including a cylinder having an outermost layer and an inner layer completely surrounded by the outermost layer. The bone implant compositions and methods include a bag or cylindrical tube made from a bone material which may be filled with additional bone material.

Connective tissue-to-bone interface scaffolds (e.g., ligament-to-bone interface scaffolds, tendon-to-bone interface scaffolds, etc.). These scaffolds may be a single integrated implant or may be a modular (e.g., two-part) implant system.

A compliant scaffold incorporates a plurality of elongated apertures that form a geometric pattern enabling biaxial expansion or contraction. An elongated aperture has a pair of nodes located on opposing sides of the aperture and between a pair of antinodes located on the extended and opposing ends of the elongated aperture. A geometric pattern may have various geometric shapes, or tiles, between the plurality of apertures. The geometric tiles have a bounded perimeter formed by the plurality of elongated apertures. A substantial portion of the elongated apertures may be configured with the antinodes proximal to one of said pair of nodes of a separate elongated aperture; wherein the antinodes are closer to one of the pair of nodes than to any other antinode. This unique arrangement of the elongated apertures may be formed in biological material in vivo or ex vivo.

A device is disclosed that includes a bone stent positioned within a bony access channel formed within a vertebra. The bony access channel may extends from an outer end of the vertebra through an endplate. The device includes an end cap attached to a proximal end portion of the bone stent and is configured to, post-operatively, open to allow a reintroduction of a material to a spinal intradiscal space or intervertebral disc and to seal access to the spinal intradiscal space or the intervertebral disc after the reintroduction of the material.

A system for treating a bone including a graft containment device extending longitudinally from a first end to a second end and including a channel extending therethrough for receiving a graft material therein, the graft containment device including a plurality of fixation openings extending therethrough and a strut extending longitudinally from a first end to a second end and including an attaching portion configured to be attached to the graft containment device and an overhang portion configured to extend beyond one of the first and second ends, when the attaching portion is attached to the graft containment device, the attaching portion including a plurality of coupling elements for engaging the fixation openings of the graft containment device, the overhang portion including an overhang opening configured to receive a bone fixation element for fixing the strut to a bone.

Described herein is a bone implant including at least one bone-engaging surface designed to mate with an implant-engaging surface of a bone. In the preferred embodiment, the bone-engaging surface of the implant includes a wave pattern comprising at least one peak extending in a proximal direction or at least one valley extending in a distal direction. The implant-engaging surface of the bone also includes a matching wave pattern having at least one peak and valley. Upon mating the engaging surfaces, a bone-implant interface may be created wherein the peaks and valleys of the wave patterns are aligned. As a result, there is good surface contact area at the bone-implant interface which helps prevent loosening or rotating of the implant.

A continuous compression fixation device for coupling a first bony structure to a second bony structure, including: a body structure; and a plurality of arm structures extending from the body structure, wherein at least one of the plurality of arm structures is configured to be coupled to the first bony structure and at least one opposed one of the plurality of arm structures is configured to be coupled to the second bony structure; wherein the body structure and the plurality of arm structures are manufactured from a shape memory material; and wherein tips of the at least one of the plurality of arm structures and the at least one opposed one of the plurality of arm structures are biased towards one another such that a desired compressive force is applied to an intercalary structural augment disposed between the first bony structure and the second bony structure.

A bone implant composition and methods thereof include bone material made into various implant shapes including a cylinder having an outermost layer and an inner layer completely surrounded by the outermost layer. The bone implant compositions and methods include a bag or cylindrical tube made from a bone material which may be filled with additional bone material.