50 results about "Spine facet joint" patented technology

This invention relates to a spinal facet joint ligament.

This invention relates to a spinal facet cap for treating scoliosis, the facet cap comprising a shim portion for inserting into a facet joint of a spine, and an alignment portion for maintaining alignment of the shim portion within the facet joint. The invention also provides a method for treating scoliosis, comprising implanting at least one spinal facet cap into at least one facet joint of a subject in need thereof.

An adaptable spinal facet joint prosthesis, including a pedicle fixation element; a laminar fixation element; and a facet joint bearing surface having a location adaptable with respect at least one of the pedicle fixation element and the laminar fixation element. The invention also includes a method of implanting an adaptable spinal facet joint prosthesis including the steps of determining a desired position for a facet joint bearing surface; and attaching a prosthesis comprising a facet joint bearing surface to a pedicle portion of a vertebra and a lamina portion of a vertebra to place the facet joint bearing surface in the desired position. The invention also provides a facet joint prosthesis implant tool including a tool guide adapted to guide a vertebra cutting tool; and first and second fixation hole alignment elements extending from the saw guide.

An assembly for the fixation of a spinal facet joint, including an outer shank, an inner shank and a tip, such that rotation of the inner shank with respect to the outer shank causes the tip to move into the outer shank. Movement of the tip causes deformation of the distal end of the outer shank such that the distal end of the outer shank is larger in diameter than the hole through which it was inserted, said deformation causing increased compression and reduced chance of device loosening.

A spinal facet fixation device includes a pair of jaws hinged on a common base. A threaded actuator bears against a cam surface on the jaws to draw the points of the jaws together. A surgeon applies the opposed points to respective facets of vertebral elements, and then tightens the actuator to draw the facets together.

A metallic inverted L-shaped implant is used to resurface the superior facet of the inferior vertebrae limited to the facet joints located on the spine, Occiput-C1 through L5-S1. The metallic implant is highly polished on its exterior and textured on its interior surface. It is mechanically crimped in place without the use of cement or pedicle screws. Permanent fixation occurs when bone in-grows onto a rough, porous surface on the inside of the implant. The implant employed in a hemi-arthroplasty method resurfaces half of the facet joint to provide for smooth, pain free joint articulation in deteriorated or diseased spinal facet joints without the need for major surgery or rehabilitation at considerably less risk to the patient.

The present invention provides a transfacet fixation assembly, including: an engaging bolt; and a receiving bolt selectively coupled to and engaged with the engaging bolt at an angle of between about 30 degrees and about 120 degrees; wherein each of the engaging bolt and the receiving bolt is configured to be disposed through a hole or bore formed through one of a plurality of bony structures making up a portion of a facet joint of a spine. Optionally, the engaging bolt includes a spherical distal end for engaging a locking sleeve disposed at a distal end of the receiving bolt.

A facet joint clamp to fix spine facet joints in a spine of a mammalian patent, the clamp including: a first plate and second plate each including a jaw section and a base, wherein the base is at an acute angle with respect to the jaw section, and the jaw section has an inside surface adapted to grasp the spine; a hinge in the base section of the first and second plates and forming a pivot joint between the plates and an adjustment mechanism to controllably pivot the first plate with respect to the second plate.

Devices and methods for creating holes in the articular process of the vertebra are provided. One embodiment of the invention comprises a drill head comprising a frame, punch arm with punch tip and opposing plate. Methods of using the resulting holes to anchor or stabilize facet joint prosthesis, and also altering the spacing and motion at the facet joints of the vertebral column, are provided.

A prosthesis for facet joints of the spinal column includes a bearing piece and a guide rod. The bearing piece includes a pressure plate that is configured for resting on an articular surface of the vertebra and, on the opposite side, a bearing insert which has an articular surface configured for interacting with an articular surface of an adjacent vertebra. The guide rod is secured on the bearing piece by means of a pivot joint. The bearing forces are transmitted to the vertebra via the pressure plate. In this way, the guide rod can have a narrow configuration, such that a slit excavated in the vertebra for receiving the guide rod can also be made narrow to permit a simple and reliable implantation technique which at the same time is gentle on the bone substance.

A spinal implant in the form of a spinal facet fastener is configured to hold, restrict and/or limit flexion and/or extension of a spinal facet joint and/or immobilize movement thereof. The spinal facet fastener is formed with leg segments configured for reception in, on and/or about vertebral bone of a spinal facet joint and a connecting segment that holds the leg segments apart a spaced distance. The spinal facet fastener has surfaces that are configured to abut vertebral bone surfaces of a spinal facet joint to hold, restrict and/or limit flexion and/or extension of the spinal facet joint and/or immobilize movement thereof. In one form, the spinal facet fastener has members that are configured for reception in vertebral bone of the vertebral bone portions that form the spinal facet joint. In this form, the spinal facet fastener may include an anchoring element that is configured for reception between the vertebral bone portions that form the spinal facet joint. In one form, a first leg is configured to abut a surface of an inferior articular process of a first vertebra while a second leg is configured to abut a surface of a superior articular process of a second vertebra that is adjacent the first vertebra. The spinal facet fastener is formed of a biocompatible material such as PEEK (polyetheretherketone) but may be formed of other biocompatible materials such as a biocompatible metal (e.g. titanium or stainless steel).

An adaptable spinal facet joint prosthesis, including a pedicle fixation element; a laminar fixation element; and a facet joint bearing surface having a location adaptable with respect at least one of the pedicle fixation element and the laminar fixation element. The invention also includes a method of implanting an adaptable spinal facet joint prosthesis including the steps of determining a desired position for a facet joint bearing surface; and attaching a prosthesis comprising a facet joint bearing surface to a pedicle portion of a vertebra and a lamina portion of a vertebra to place the facet joint bearing surface in the desired position. The invention also provides a facet joint prosthesis implant tool including a tool guide adapted to guide a vertebra cutting tool; and first and second fixation hole alignment elements extending from the saw guide. The invention also provides systems for treating spinal pathologies that include intervertebral discs in combination with spinal and facet joint prostheses.

A spinal facet bone screw system provides tactile feedback to the user during installation to aid in determining when one or more components of the spinal facet bone screw system have been installed or implanted. The spinal facet bone screw system has a spinal facet screw and a washer. Tactile installation feedback is provided at an interface between a friction surface of the head of the spinal facet screw and a friction surface of the pocket of the washer to determine when the spinal facet screw has reached its full insertion depth. The bottom or undersurface of the washer that abuts a spinal facet bone or other spinal component during installation may be configured and/or textured to further provide tactile installation feedback as between the washer and the bone or other spinal component.

A spinal implant for implantation within a spinal facet joint is provided. The spinal implant may include a main body including opposing top and bottom surfaces, opposing front or distal and rear or proximal surfaces, and opposing side surfaces. At least one retaining feature may be associated with at least one surface of the main body to frictionally engage the implant within the spinal facet joint. At least one securement feature may be associated with at least one surface of the main body to selectively secure the implant within the spinal facet joint.

An adaptable spinal facet joint prosthesis, including a pedicle fixation element; a laminar fixation element; and a facet joint bearing surface having a location adaptable with respect at least one of the pedicle fixation element and the laminar fixation element. The invention also includes a method of implanting an adaptable spinal facet joint prosthesis including the steps of determining a desired position for a facet joint bearing surface; and attaching a prosthesis comprising a facet joint bearing surface to a pedicle portion of a vertebra and a lamina portion of a vertebra to place the facet joint bearing surface in the desired position. The invention also provides a facet joint prosthesis implant tool including a tool guide adapted to guide a vertebra cutting tool; and first and second fixation hole alignment elements extending from the saw guide. The invention also provides systems for treating spinal pathologies that include intervertebral discs in combination with spinal and facet joint prostheses.

A spinal facet fusion device is provided. The device includes a working sleeve having a first surface with a first port and a second port extending there through. The first port has a first perimeter and the second port having a second perimeter, wherein the first port is larger than the second port. A guide wire sleeve having a body with a proximal end and a distal end and a first outer perimeter is provided. The first outer perimeter is sized and shaped to be slidingly disposed within the second port, the guide wire sleeve having a channel extending longitudinally from the proximal end through the distal end, the body further having a stop feature on the distal end. An implementing device having a second outer perimeter is sized to be slidingly received within the first perimeter.

The invention provides a connecting rod for bone anchors such as pedicle screws. The rod is constructed to include a main shaft portion that is not bioresorbable and a tip portion that is bioresorbable. The tip facilitates percutaneous insertion into a patient's body. After placement of the rod, the bioresorbable tip is resorbed preventing post-operative complications such as impingement of adjacent spinal facet joints.

The present invention provides, among other things, a surgical device for the translation/distraction and subsequent stabilization/fusion of a facet joint of a spine, including: a post that is selectively disposed partially between articulating surfaces of the facet joint; and a keel structure that is selectively disposed about the post and impacted into the articulating surfaces of the facet joint, wherein, when the keel structure is selectively rotated about the post, the articulating surfaces of the facet joint are moved with respect to one another.

A minimally invasive method for accessing a facet joint of the spine is provided. Embodiments of the method include creating a small incision directly over the facet joint and to allow direct access and visualization of the joint. A second incision, which may be a puncture wound, is provided at a distance from the first incision. A path between the second incision and the facet joint is then formed which may be curved or substantially straight. The path is preferably configured to intersect both facet surfaces. The path may be formed using an instrument which can be used to drill a hole across the facets, insert a fastener across the facets, or the like.

A spinal facet joint implant suitable for minimally invasive implantation and capable of transitioning from a compact first configuration to an expanded second configuration is made of a swellable and compressible fluid absorbing polymer. The implant is dimensioned and configured, while in the first configuration, to fit within the lumen of a surgical needle. In the expanded, second configuration, the implant exerts pressure within the facet joint which helps keep the facet joint from collapsing and anchors the implant in place. A spinal facet joint implant herein may also be dimensioned and configured to occupy a portion of the capsule of a facet joint. A spinal facet joint implant for treating inflammation made from a fluid absorbing polymer absorbs and sequesters inflammatory agents as it absorbs synovial fluid in situ. Methods of making and implanting a spinal facet implant are provided.