Abstract: A spinal plating system for vertebral fixation includes a plate, a compression screw, multiple fixation members and polyaxially adjustable locking rings. The plate is shaped to conform to the curvature of the spine and the surfaces of the vertebral bodies. The compression screw fits through an insert, and together they are guided by the plate as the screw is driven into one of the vertebrae, producing compression between the adjacent vertebrae. A retaining lip on the plate prevents backout of the compression screw. The polyaxial locking rings can be polyaxially pivoted to attain a desired orientation, and are lockable to the plate to maintain the orientation. The fixation members fit through openings in the polyaxial locking rings and the plate to fix the plate to the vertebrae. Locking the polyaxial locking rings fixes the position of the fixation members relative to the plate, and prevents backout of the fixation members.

Abstract: A spinal plating system for vertebral fixation includes a plate, a compression screw, multiple fixation members and polyaxially adjustable locking rings. The plate is shaped to conform to the curvature of the spine and the surfaces of the vertebral bodies. The compression screw fits through an insert, and together they are guided by the plate as the screw is driven into one of the vertebrae, producing compression between the adjacent vertebrae. A retaining lip on the plate prevents backout of the compression screw. The polyaxial locking rings can be polyaxially pivoted to attain a desired orientation, and are lockable to the plate to maintain the orientation. The fixation members fit through openings in the polyaxial locking rings and the plate to fix the plate to the vertebrae. Locking the polyaxial locking rings fixes the position of the fixation members relative to the plate, and prevents backout of the fixation members.

Abstract: A simple yet effective adjustable laminoplasty implant and procedure includes a member positioned within or through a hole formed through a spinous process, and an elongated element is provided with a medial end coupled to the member and a lateral end configured for engagement with a bone mass fixation device. The elongated element may be a bent rod. The rod may have a medial end with a cross-section that is smaller than that of the lateral end. The member positioned within or through a hole formed through a spinous process may be a sleeve with angled endcaps. The endcaps may include bone-engaging teeth. Alternatively, the sleeve may have a central bore and barbs that engage with surrounding bone when an elongated member is inserted in the bore. The mass fixation device may a pedicle screw. The pedicle screw may be configured to receive a transverse rod. Alternatively, the mass fixation device may itself be a rod. Method of performing a laminoplasty In accordance with the invention are also disclosed.

Abstract: A simple yet effective adjustable laminoplasty implant and procedure includes a member positioned within or through a hole formed through a spinous process, and an elongated element is provided with a medial end coupled to the member and a lateral end configured for engagement with a bone mass fixation device. The elongated element may be a bent rod. The rod may have a medial end with a cross-section that is smaller than that of the lateral end. The member positioned within or through a hole formed through a spinous process may be a sleeve with angled endcaps. The endcaps may include bone-engaging teeth. Alternatively, the sleeve may have a central bore and barbs that engage with surrounding bone when an elongated member is inserted in the bore. The mass fixation device may a pedicle screw. The pedicle screw may be configured to receive a transverse rod. Alternatively, the mass fixation device may itself be a rod. Method of performing a laminoplasty In accordance with the invention are also disclosed.

Abstract: A spinal plating system for vertebral fixation includes a plate, a compression screw, multiple fixation members and polyaxially adjustable locking rings. The plate is shaped to conform to the curvature of the spine and the surfaces of the vertebral bodies. The compression screw fits through an insert, and together they are guided by the plate as the screw is driven into one of the vertebrae, producing compression between the adjacent vertebrae. A retaining lip on the plate prevents backout of the compression screw. The polyaxial locking rings can be polyaxially pivoted to attain a desired orientation, and are lockable to the plate to maintain the orientation. The fixation members fit through openings in the polyaxial locking rings and the plate to fix the plate to the vertebrae. Locking the polyaxial locking rings fixes the position of the fixation members relative to the plate, and prevents backout of the fixation members.