Laminar clamp tensioner and method

What is claimed is: 1. A laminar fixation system for retaining a spine rod relative to a vertebra of the spine, the laminar fixation system comprising: a laminar fixation implant having a rectangular body with a hook at one end that defines an arcuate pocket for holding the spine rod, a locking mechanism configured to affix the laminar fixation implant to the spine rod received in the arcuate pocket of the hook, a passage extending through the hook from a top of the hook to a lower side of the hook for receiving laminar fixation tape, and a fixation plate disposed in a sidewall of the arcuate pocket of the hook and abutting the passage, whereby pressure exerted on the fixation plate will press against and fix laminar fixation tape in the passage relative to the laminar fixation implant; and a laminar fixation implant tensioning tool having a tubular body, a movable carriage situated about the tubular body, the movable carriage having a clamp that is adapted to lock movement of laminar fixation tape and allow freedom of movement of laminar fixation tape received therein, and an actuator connected to the movable carriage that is adapted to control up and down movement of the carriage with respect to the tubular body, whereby laminar fixation tape retained by the clamp is tensioned by upward movement of the movable carriage and loosened by downward movement of the movable carriage. 2. The laminar fixation system of claim 1 , wherein: the locking mechanism includes a threaded bore extending through the implant body from the top of the implant body to proximate the arcuate pocket of the hook, the threaded bore angled from the top of the implant body towards the arcuate pocket; and the laminar fixation system further includes a set screw disposed in the threaded bore, the set screw having an angled end that is configured to engage a spine rod held in the arcuate pocket. 3. The laminar fixation system of claim 2 , wherein the actuator of the laminar fixation implant tensioning tool is controlled through rotation of a “T” handle disposed at an upper end of the tubular body. 4. The laminar fixation system of claim 2 , wherein the clamp of the movable carriage comprises a cam lock clamp. 5. A method of retaining a spine rod relative to a vertebra comprising: providing a laminar fixation system having: a laminar fixation implant having a rectangular body with a hook at one end that defines an arcuate pocket for holding a spine rod, a locking mechanism configured to affix the laminar fixation implant to a spine rod received in the arcuate pocket of the hook, a passage extending through the hook from a top of the hook to a lower side of the hook for receiving laminar fixation tape, and a fixation plate disposed in a sidewall of the arcuate pocket of the hook and abutting the passage, whereby pressure exerted on the fixation plate will press against and fix laminar fixation tape in the passage relative to the laminar fixation implant; and a laminar fixation implant tensioning tool having a tubular body, a movable carriage situated about the tubular body, the movable carriage having a clamp that is adapted to lock movement of laminar fixation tape and allow freedom of movement of laminar fixation tape received therein, and an actuator connected to the movable carriage that is adapted to control up and down movement of the carriage with respect to the tubular body, whereby laminar fixation tape retained by the clamp is tensioned by upward movement of the movable carriage and loosened by downward movement of the movable carriage; providing laminar fixation tape; threading the laminar fixation tape through the passage of the hook of the laminar fixation implant; threading the laminar fixation tape through the clamp of the movable carriage; looping the laminar fixation tape around a lamina of a vertebra; locking movement of the laminar fixation tape by the clamp; tensioning the laminar fixation tape by moving the carriage; and fixing the laminar fixation tape relative to the laminar fixation implant via the second locking mechanism of the laminar fixation implant through locking a spine rod in the arcuate pocket of the hook via a set screw. 6. The method of claim 5 , wherein the actuator of the laminar fixation implant tensioning tool comprises a rotatable “T” handle disposed at an upper end of the tubular body. 7. The method of claim 5 , wherein fixing the laminar fixation tape relative to the laminar fixation implant comprises manipulating the set screw such that the set screw contacts the spine rod and causes the spine rod to reposition the fixation plate such that the fixation plate contacts the laminar fixation tape within the passage. 8. A laminar fixation system for retaining a spine rod relative to a vertebra of the spine, the laminar fixation system comprising: a laminar fixation implant having a body with a hook at one end that defines an arcuate pocket for holding the spine rod, a spine rod locking mechanism configured to affix the hook to the spine rod received in the arcuate pocket, a channel extending through the hook from a top of the hook to a lower side of the hook for receiving laminar fixation tape, and a laminar fixation tape locking mechanism comprising a fixation plate disposed in a sidewall of the arcuate pocket wherein pressure applied to the fixation plate causes the fixation plate to fix the laminar fixation tape in the channel; and a laminar fixation implant tensioning tool having a tubular body, a movable carriage situated about the tubular body, the movable carriage having a clamp that is adapted to lock movement of laminar fixation tape and allow freedom of movement of laminar fixation tape received therein, and an actuator connected to the movable carriage that is adapted to control up and down movement of the carriage with respect to the tubular body, whereby laminar fixation tape retained by the clamp is tensioned by upward movement of the movable carriage and loosened by downward movement of the movable carriage. 9. The laminar fixation system of claim 8 , wherein: the locking mechanism includes a threaded bore extending through the implant body from the top of the implant body to proximate the arcuate pocket of the hook, the threaded bore angled from the top of the implant body towards the arcuate pocket; and the laminar fixation system further includes a set screw disposed in the threaded bore, the set screw having an angled end that is configured to engage a spine rod held in the arcuate pocket. 10. The laminar fixation system of claim 9 , wherein the actuator of the laminar fixation implant tensioning tool is controlled through rotation of a “T” handle disposed at an upper end of the tubular body. 11. The laminar fixation system of claim 8 , wherein the clamp of the movable carriage comprises a cam lock clamp. 12. The laminar fixation implant of claim 8 , wherein the locking mechanism comprises: a threaded bore providing fluid communication through the body of the laminar fixation implant, the threaded bore having a first opening disposed adjacent the arcuate pocket; and a set screw configured to be received by the threaded bore and protrude from the first opening such that at least a portion of the set screw contacts the spine rod such that the spine rod is retained within the arcuate pocket. 13. A laminar fixation implant for use with a laminar fixation implant system, the laminar fixation implant comprising: a body configured to retain a spine rod relative to a vertebra of the spine, the body comprising: a hook defining an arcuate pocket configured to receive the spine rod; a channel extending through the hook and conf