Abstract: A spinal interbody fusion cage has a body whose anterior/posterior profile may be varied through angular positioning of one or more articulating segments of the body without changing the superior/inferior height of the body. The present spinal interbody fusion cage has N segments or sections wherein at least one segment is articulated relative to another segment via a connection point, pivot or pivot structure such that the anterior/posterior profile is variable through angular positioning of one or more of the segments. The pivot structure may be configured so as to allow unidirectional movement between the connecting segments thereby allowing articulation in one plane or to allow omni-directional movement between the connecting segments thereby allowing articulation in multiple planes. The various forms of the present interbody fusion cage include superior and inferior sides or bone abutment surfaces that have serrations, teeth or similar functioning structures (teeth).

Abstract: A spinal cross connector is configured for connection between spinal rods and provides allowance or space for spinal extensor muscles once the spinal process has been removed. The cross connector has curved first and second connection members that are adjustable in length and rotation relative to one another. A first clamping member is provided on the first connection member and defines first and second arcuate jaws that are adapted to clamp onto a first spinal rod. A second clamping member is provided on the second connection member and defines first and second arcuate jaws that are adapted to clamp onto a second spinal rod. Both the first and second clamping members are rotatable and thus provide the rotational adjustment. The cross-connector also provides easy in situ sizing and adjustability.

Abstract: A spinal interbody distractor is provided that is configured to provide distraction of adjacent vertebrae after implantation within a spinal disc cavity through manual rotation of the distractor once implanted. Such implantation is preferably, but not necessarily, through minimally invasive surgical techniques. In one form, the distractor is configured to be rotated 90° to 180° after implantation to provide distraction of adjacent vertebrae. The distractor has a lateral side to lateral side height of a first length and a superior end to inferior end height of a second length that is greater than the first length. This configuration allows the distractor to be inserted into a spinal disc cavity having an opening with a height that is smaller than an end height of the spinal disc cavity after implantation thereof, thereby providing distraction of adjacent vertebrae.

Abstract: A spinal spacer or stenotic device is expandable, inflated and/or filled in situ or ex vivo through the addition of a biocompatible fill material into the spinal implant once inserted or implanted in like manner to an angioplasty bag. Once implanted, expansion or inflation of the present expandable spinal spacer distracts the spine (creates spacing). The present expandable spinal spacer can operate as an interspinous, interspinous process, or intralaminar spinal spacer. In general the present expandable spinal space creates and/or maintains spacing between vertebrae or components of vertebrae. The present expandable spinal spacer is formed of a generally pliable biocompatible material that is collapsible and expandable/fillable. Preferably, but not necessarily, the biocompatible material is a mesh or weave type material, although other materials may be used.

Abstract: A spinal interbody or intravertebral device is provided for fusion and non-fusion spinal applications. The spinal interbody device allows for limited motion between adjacent vertebrae to help preserve normal motion between adjacent vertebrae (superior/inferior vertebrae) relative to the implanted spinal interbody device and limited rotational motion of the spinal interbody device, once implanted. Limitation of motion is achieved through one or more protrusions incorporated into the spinal interbody device. The protrusions preferably, but not necessarily, extend radially from a hub or ball-shaped body of the interbody device. In one form, a single protrusion extends radially about the hub of the interbody device to form a continuous band, ring or base about the hub. In this form, portions of the band may extend radially further from the hub than other portions of the band.

Abstract: A spinal rod/rod system for spinal stabilization is controllably bendable or flexible along its longitudinal axis to achieve a particular radius of curvature, flex, arch or angle of the spinal rod and preserve the achieved angle through a locking mechanism. The spinal rod is controllably bendable through application of a controlled axial force. Such controllable curvature allows for limited movement of the vertebrae connected by the present resilient spinal rod system. The present spinal rod is defined by a multi-component system which includes an inner spring rod and an outer rod tube. An angulation ring is threadedly attached to an end of the spring rod and provides controlled adjustment of the angle or curvature of the spinal rod through axial compression of the spring rod relative to the outer tube. Locking prevents the increase and/or decrease of angulation of the spinal rod.

Abstract: A spinal cross-connector is configured for adjustable connection between spinal fixation devices such as spinal fixation rods and allows for adjustment in length or distance between adjacent spinal rod clamping members and provides independent rotational adjustment of the two spinal rod clamping members for individual and independent attachment thereof to adjacent spinal rods of a spinal rod assembly. The cross-connector has first and second connection members that are adjustable in length and rotation relative to one another. A first spinal rod clamping member is provided on an end of the first connection member and defines first and second arced jaws that are adapted to clamp onto a first spinal rod. A second spinal rod clamping member is provided on an end of the second connection member and defines first and second arced jaws that are adapted to clamp onto a second spinal rod.