Abstract: The present invention is related to spinal stabilization devices. More particularly, this invention relates to devices for addressing back pain originating in the facet joints and the spinous processes of the vertebrae. One embodiment of the present invention includes a substantially T-shaped facet implant for insertion between the facets of two successive vertebrae after a desired amount of the articulating surfaces have been resected. The long and flat portion of the T-shaped facet implant is inserted in between the facets and then the wings of the T-shape, also called fixation tabs, are secured to the spine to secure the facet implant into place. The T-shape implant may also be a part of a spinal stabilization system that includes a facet implant, a spinous process spacer, and a flexible connecting member securing the same.

Abstract: A spinal fixation access system includes a pedicle screw with extended tabs that form a single solid pedicle screw assembly. The surgical procedure associated with this invention involves making small, discrete incisions for the placement of select pedicle screws. The extended tabs of the pedicle screws retract soft tissue, muscle and the like to thereby provide visibility and access to the head of the pedicle screw. Through the extended tabs, instrumentation such as a spine rod, set screw and other required hardware may be delivered to the pedicle screws. A collar may be coupled around the extended tabs to provide stability to the construct and a platform for additional components of this invention. Once a spine rod is secured to the pedicle screws, a frangible joint joining the tabs to the pedicle screw assembly is broken off using appropriate instrumentation and the extended tabs may be removed.

Abstract: The present invention relates to methods and spinal implant devices for stabilizing a facet joint. In one embodiment, the method includes forming a hole through a facet joint and respective overlapping superior and inferior articular processes of adjacent vertebra which, respectively, include superior articular process and inferior articular process openings. A spinal implant device, such as elongated member, is inserted lengthwise into the hole. The first end portion of the elongated member defines a closed end and the second end portion defines an open end permitting entry into an interior of the member. The interior of the elongated member is filled with a desired material to expand the first and second end portions of the member beyond respective superior articular process and inferior articular process openings of the hole to greater than a desired size of the superior articular process and inferior articular process openings to stabilize the facet joint.

Abstract: Methods and devices for insertion between adjacent vertebrae in a spine following removing at least a portion of a nucleus from within a disc. In one embodiment, the device includes a member having a flexible wall surrounding an internal volume and a coupler that is secured to the flexible wall. The member is adapted to expand when filled with a first filler material to form an interior cavity. The coupler has a first access point, a second access point, a first coupler side hole, and an optional second coupler side hole. The first and second access points are adapted to removably receive one or more fill tubes. The fill tubes cooperate with the first and optional second coupler side holes to direct the first filler material into the internal volume and a second filler material into the interior cavity.

Abstract: The present invention relates to flexible members for stabilizing a spinal column and methods for making the flexible members. In one embodiment, a flexible member comprises an inner elastomeric member and an outer fabric layer situated securely around the inner elastomeric member. The inner elastomeric member has a first elasticity to provide the flexible member with a desired flexibility. In another embodiment, the flexible member includes an outer covering that defines an outer elastomeric member. The outer elastomeric member may be situated securely around the outer fabric layer with the inner elastomeric member, the outer fabric layer, and the outer elastomeric member having the common lengthwise axis and defining the body including the opposing first and second ends. The outer elastomeric member may have a second elasticity that is less than the first elasticity.

Abstract: A spinal stabilization system including an insert positionable in the channel of the housing of a poly-axial pedicle screw which allows for locking the housing of the poly-axial pedicle screw from pivotal movement through a clamping force generated by rotational engagement of a fastener with the housing while clamping a cord of a support construct in the housing of the poly-axial pedicle screw through direct contact of the fastener against the cord.

Abstract: In various embodiments, a spinal stabilization system has a first and a second vertebral anchor each adapted to be coupled to one of a first and a second vertebrae. The system also includes a flexible connecting element coupled to each of the first and second vertebral anchors and extending between the vertebral anchors. The connecting element has a central member and a brace positioned about the central member and the central member is stiffer than the brace to provide the needed combination of support and stiffness to the construct while offering flexibility. These and other various embodiments of this invention offer an improvement over known systems by providing stabilization of the vertebral column while allowing for flexibility and axial dampening.

Abstract: The present invention provides an injectable annular ring useful in treating a deteriorating spinal disc. When used, the annular ring may be collapsed or folded in order for it to be placed through a small opening in a prepared intervertebral space within the annulus using minimally invasive techniques. Deployment or unfolding the ring in the intervertebral space provides an interior cavity bordered by the ring that is in direct contact with the vertebral endplates. When an internal volume of the ring is inject or filled with a load-bearing, hardenable material, the filled ring maintains the intervertebral spacing and prevents the ring from being expelled from the interior cavity through the small annular opening.

Abstract: In one embodiment, a spinal stabilization apparatus includes a vertebral anchor having a head portion and a bone attachment portion. An elongate, flexible guide is removably coupled to the head portion of the vertebral anchor and has a channel extending longitudinally thereof and communicating with a slot in the head portion of the anchor. An elongate cord may be received within the channel to facilitate inserting and securing a spacer between pairs of anchors installed into adjacent vertebrae of a person's spine.

Abstract: The present invention provides various interspinous vertebral implants and methods for using the same for dynamic stabilization of a spine. The interspinous vertebral implants of the present invention comprise a resiliently compressible body that is adapted for position between adjacent superior and inferior spinous processes, and an anchoring member that is affixed to the superior and the inferior spinous processes posterior to the resiliently compressible body. The anchoring member provides a compressive force while the resiliently compressible body provides a distraction. Without being bound by any theory, it is believed that the combination of the distraction and compressive forces created by interspinous vertebral implants of the present invention result in a rotational moment, which alleviates compression on the intervertebral disk.

Abstract: A spinal fixation access system includes a vertebral anchor with selectively attached extension members to extend percutaneously from the spine. The surgical procedure associated with this invention involves making small, discrete incisions for the placement of select vertebral anchors. The extension members retract soft tissue, muscle and the like to thereby provide visibility and access to the head of the anchor. Through the extension members, instrumentation such as a spine rod, set screw and other required hardware may be delivered to the anchors. Once a spine rod or other components are secured to the pedicle screws, the extension members are disengaged from the anchors and removed from the patient.

Abstract: An implant for stabilizing adjacent vertebrae, the implant includes a stabilizing body expandable along a longitudinal axis from a first size state to a second size state. A cavity is defined in the stabilizing body for receiving a quantity of curable filler material sufficient to expand the stabilizing body from the first size state to the second size state. The implant further includes an attachment member for attaching the stabilizing body to the adjacent vertebrae. The stabilizing body is expandable along an arcuate axis to exert a restoring moment of movement on the attached vertebrae.

Abstract: An interspinous vertebral implant comprises a resiliently compressible body that is adapted for position between adjacent superior and inferior spinous processes, and an anchoring member that is affixed to the superior and the inferior spinous processes posterior to the resiliently compressible body. The anchoring member provides a compressive force while the resiliently compressible body provides a distraction. Without being bound by any theory, it is believed that the combination of the distraction and compressive forces created by this type of interspinous vertebral implant results in a rotational moment, which alleviates compression on the intervertebral disk.

Abstract: In one embodiment, a spinal stabilization apparatus includes a vertebral anchor having a head portion and a bone attachment portion. An elongate, flexible guide is removably coupled to the head portion of the vertebral anchor and has a channel extending longitudinally thereof and communicating with a slot in the head portion of the anchor. An elongate cord may be received within the channel to facilitate inserting and securing a spacer between pairs of anchors installed into adjacent vertebrae of a person's spine.

Abstract: A vertebral fixation system including an elongate rod and a vertebral anchor for securement to a vertebra. The vertebral anchor includes a head portion for receiving a portion of the rod. The elongate rod may be formed of a material having a modulus of elasticity less than or equal to 110 GPa and an ultimate strength greater than 1 GPa. The elongate rod may have a structural bending stiffness in the range of about 500,000 N-mm2 to about 2,000,000 N-mm2 or about 1,250,000 N-mm2. In some instances, the elongate rod may be formed of a beta titanium alloy such as high strength Ti-15Mo-5Zr. In some instances the elongate rod has a diameter in the range of about 3.25 millimeters to about 4.5 millimeters. Various elongate rods including regions for receiving a flexible member along an exterior surface of the elongate rods are also provided.

Abstract: Systems and methods for implanting a spinal implant in a spinal column are disclosed. In one example, an illustrative system may include a delivery device including a proximal end region and a distal end region, a spinal implant releasably coupled to the distal end region of the delivery device, and a sleeve disposed about the spinal implant and at least a portion of the delivery device. In some cases, a distal portion of the sleeve may include a predetermined weakened region that may be configured to separate when a force is applied to the weakened region, which in some cases, may be applied with a pull string. In another example, a distal portion of the sleeve may be reverse folded upon itself such that the retractable sleeve rolls off of the spinal implant when the retractable sleeve is retracted.

Abstract: A surgical access system includes retractor for creating an access path between an incision site and a surgical site. The retractor includes a frame having a base member and a pair of generally curved rails extending therefrom. A tubular member is coupled to the frame and includes first and second blade portions that are capable of relative movement with respect to each other by movement on the curved rails. A method of inserting the retractor into a patient includes inserting a guide rod over a guide wire, locating an obturator in the retractor, inserting the obturator and retractor over the guide rod, and removing both the guide rod and obturator to leave the retractor in the body to provide the access path.

Abstract: A transition connector of a vertebral stabilization system for connecting a rigid rod and a flexible cord to provide regions of rigid support and regions of dynamic support along a region of the spinal column is disclosed. A rigid rod may form one portion of the transition connector and a clam shell connector configured to receive a flexible cord may form another portion of the transition connector. The clam shell connector may be configured to be clamped around and secure the flexible cord.

Abstract: A vertebral column correction system for correcting a spinal deformity without fusing the joint segments is disclosed. The vertebral column correction system may have first and second vertebral anchors secured to first and second vertebrae. The vertebral column correction system may further comprise one or more intermediate vertebral anchors secured to vertebrae between the first and second vertebrae. A connection member may be disposed within a head portion of the vertebral anchors. At least a portion of the connection member may be a flexible member, such as a flexible cord, configured for tensioning between at least two vertebral anchors for providing a desired amount of tension to apply a correctional force to the spinal column. A spring member, or other tensioning member, may maintain the tension of the connection member.

Abstract: A device for facilitating bone fusion of two vertebrae. The device is sized and shaped to at least extend between the two vertebrae to be fused, and includes an outer wall member disposed about an inner portion. A space between the outer wall member and the inner compartment is adapted to contain an osteogenic bone fusion material. The inner portion includes a compartment adapted to contain an inner fill material, such as a bone cement or an in situ curable polymer. The inner portion may operate as a structural member to maintain a desired amount of spacing between the vertebrae to be fused, and to support the spinal column prior to formation of the fused bone joint. The device is also configured to locate the osteogenic material away from the centers of the vertebrae to be fused, providing a fused joint with high bending and torsional rigidity.