Patent ID: 8388688
Filing Date: 2013-03-05
Classification: A61B,A61F

Abstract:
1. A method for correcting alignment between two vertebrae due to spondylotisthesis comprising of the steps: providing a distractor having a distractor body with a hollow chamber along a distractor body longitudinal axis, an anterior end, a posterior end having a first longitudinal extension and a second longitudinal extension which extend from the distractor body in the direction of the distractor body longitudinal axis, the first longitudinal extension having a first stop surface perpendicular to the first longitudinal extension and extending parallel to the distractor body, the second longitudinal extension having a second stop surface perpendicular to the second longitudinal extension and extending parallel to the distractor body, a gap between the first stop surface and the second stop surface, a measurement scale along the first longitudinal extension, and a torque handle perpendicularly attached to the distractor body; providing an impactor having an impactor handle, an impactor body having a longitudinal axis, a latitudinal axis, an impactor body anterior end, and an impactor body posterior end, the impactor handle being centered on the latitudinal axis of the impactor body anterior end, an impactor seat centered along the latitudinal axis of the impactor body posterior end; providing a gate having a gate longitudinal axis, a gate latitudinal axis, a distractor end and a guide end, the distractor end having an insertion conduit and having a distractor stop, the guide end having a guide conduit, a top side, a bottom side, a right side, a left side, a gate anterior end, a first set of a guide slots from a first centerline of the right side to a second centerline of the bottom side and parallel to the gate anterior end, a second set of guide slots from a third centerline of the left side to a fourth centerline of the top side and parallel to the gate anterior end, a first side slot along the first centerline of the right side and ductedly connected to the first set of guide slots and terminating in a first end, a second side slot along the second centerline of the left side and ductedly connected to the second set of guide slots and terminating in a second end, the first set of guide slots having a first set spacing and the second set of guide slots having a second set spacing, the first set spacing related to the second set spacing by a third set spacing; providing a saw unit with a saw longitudinal axis, the saw unit having a handle joined to a spindle connected to a saw blade, a saw guide body, and a saw guide projection, the saw guide projection joined to the handle at an angle generally perpendicular to the saw longitudinal axis, the saw guide body further having a longitudinal pivot hole coaxial with the saw longitudinal axis, the guide body further having a horizontal blade stop and a vertical blade stop, the spindle rotatively mounted in the longitudinal pivot hole, the saw blade having a saw blade longitudinal axis parallel to the saw guide projection and movable between a stoppage position adjacent the horizontal blade stop and an operational position adjacent the vertical blade stop; providing an implant with a first body having a first body longitudinal axis, a first channel, a first body outer surface, a first threaded hole, and a first connection joint, the first channel having a receiving recess, and a second body having a second body longitudinal axis, a second body outer surface, a positioning block, and a second connection joint, the first body and the second body slidably connected by the first connection joint and the second connection joint forming a rectangular body wherein the positioning block is located within the first channel, a drive screw hole located on an anterior end of the positioning block and the drive screw hole being threaded, the positioning block having a locking recess in which a spring and a locking block is located, the first body having a first set of radial anchors radially extending and generally perpendicular to the first body longitudinal axis from the first body outer surface and the second body having a second set of radial anchors radially extending from the second body outer surface and generally perpendicular to the second body longitudinal axis; providing an inserter having a first inserter chamber and a second inserter chamber and an inserter torque handle attached generally perpendicular to the inserter, both the first inserter chamber and the second inserter chamber extending through an inserter longitudinal axis; providing a screw having a screw connection end and a screw head, and the screw connection end threaded; providing a rod having a cylindrical section and a hexagonal section, the cylindrical section having a rod anterior end and a rod posterior end, the rod anterior end and the rod posterior end are threaded; providing a reduction wheel having a cylindrical section and a reduction wheel chamber, the reduction wheel chamber generally centrally located within the cylindrical section; providing a bolt having a bolt head and a bolt body, the bolt body being generally perpendicular to the bolt head, the bolt body being threaded; providing a spacer with a spacer chamber; providing a plate having a plate hole, a plurality of screw holes, and a face, the plate hole being centered in the face; exposing a misaligned first vertebra, a misaligned second vertebra, and a disk between the misaligned first vertebra and the misaligned second vertebra of a patient through an anterior surgical approach; identifying a putative midline of the disk; marking the putative midline on the disk; removing a portion of the disk forming an opening in the disk; inserting the impactor through the hollow chamber of the distractor until the impactor body posterior end abuts the first stop surface and the second stop surface; aligning the posterior end with the putative midline on the disk and the opening; striking the impactor handle until the posterior end is aligned with the misaligned first vertebra's dorsal epiphyseal ring; removing the impactor from the distractor leaving the distractor between the misaligned first vertebra and the misaligned second vertebra; inserting the distractor end of the gate over the anterior end of the distractor until the anterior end abuts the distractor stop; inserting the saw unit through the insertion conduit of the gate and the hollow chamber of the distractor until the saw guide projection abuts the first end of the first side slot; creating a first slot in the misaligned first vertebra by directing the saw guide projection into a first guide slot of the first set of guide slots by rotating the handle and causing the saw blade to rotate from the stoppage position to the operation position and back to the stoppage position; repeating the previous step for each guide slot of the first set of guide slots thereby creating a first set of vertebra slots; removing the saw unit from the gate and the distractor; rotating the saw unit 180 degrees about the saw longitudinal axis; reinserting the saw unit through the insertion conduit of the gate and the hollow chamber of the distractor until the saw guide projection abuts the second end of the second side slot; creating a second slot in the misaligned second vertebra by directing the saw guide projection into a first guide slot of the second set of guide slots by rotating the handle and causing the saw blade to rotate from the stoppage position to the operation position and back to the stoppage position; repeating the previous step for each guide slot of the second set of guide slots and creating a second set of vertebra slots; removing the saw unit from the gate and the distractor; removing the gate from the distractor; aligning the first connection joint and the second connection joint; sliding the first connection joint through the second connection joint posteriorly until the first set of radial anchors and the second set of radial anchors are consistent with the third set spacing; attaching the first body to the inserter by aligning the first body with the inserter; inserting the screw through the first inserter chamber and threading the screw connection end into the first threaded hole; inserting the rod through the second inserter chamber until the rod posterior end aligns with the drive screw hole; attaching the rod to the lower body by threading the rod posterior end into the drive screw hole; threading the rod anterior end into the reduction wheel chamber until the reduction wheel abuts the inserter; inserting the inserter through the hollow chamber of the distractor until the attached implant is in the opening between the misaligned first vertebra and the misaligned second vertebra; rotating the inserter to lodge the first set of radial anchors in the first set of vertebra slots and lodge the second set of radial anchors in the second set of vertebra slots; turning the reduction wheel to align the misaligned first vertebra and the misaligned second vertebra and the locking block enters the receiving recess; removing the reduction wheel from the rod; removing the rod from the second inserter chamber; removing the screw connection end from the first threaded hole; removing the screw from the first inserter chamber; removing the inserter; removing the distractor; performing interbody arthrodesis around the implant; placing the bolt body through the plate hole; placing the bolt body through the spacer chamber; connecting the bolt body to the implant by threading the bolt body in the drive screw hole of the implant; inserting a plurality of screws into the misaligned first vertebra and the misaligned second vertebra through the plurality of screw holes; whereby the corrected alignment between the misaligned first vertebra and the misaligned second vertebra is maintained.