Rod reducing device

The invention claimed is: 1. A method of reducing a spinal rod comprising: transitioning a rod reducer to an open state, in which, distal ends of a first arm and grasping members of the rod reducer are radially expanded; positioning the rod reducer over a bone screw assembly; positioning a spinal rod adjacent a rod receiving portion of the bone screw assembly; rotating a reducing screw of the rod reducer to transition an anvil of the rod reducer away from a housing of the rod reducer to a closed state, in which, the distal ends of the first arm and the grasping members of the rod reducers are radially contracted to engage the bone screw assembly; reducing the spinal rod into the rod receiving portion; and rotating a locking screw of the rod reducer to move a locking anvil to advance a locking plug into a bone screw housing of the bone screw assembly to secure the spinal rod to the rod receiving portion, the locking screw and the locking anvil being rotatably coupled to one another. 2. The method of claim 1 , wherein rotating the reducing screw of the rod reducer includes engaging the first arm of the rod reducer with the rod receiving portion of the bone screw assembly. 3. The method of claim 2 , wherein rotating the reducing screw of the rod reducer includes engaging the grasping members with the bone screw housing of the bone screw assembly. 4. The method of claim 2 , wherein the reducing screw is rotatably coupled with the anvil. 5. The method of claim 1 , further comprising partially rotating the locking screw to partially advance the locking plug into the bone screw housing of the bone screw assembly and making adjustments to the spinal rod. 6. The method of claim 1 , wherein rotation of the locking screw causes axial displacement of the locking anvil relative to the anvil. 7. The method of claim 1 , wherein the locking anvil imparts an axial force to the locking plug to transition the housing of the bone screw assembly to a locked state. 8. The method of claim 1 , wherein the locking anvil advances within a cutout of the anvil. 9. The method of claim 1 , wherein when the locking screw is rotated, the locking screw threadably engages a threaded bore of the anvil. 10. A method of reducing a spinal rod comprising: positioning a rod reducer over a bone screw assembly; positioning a spinal rod adjacent a rod receiving portion of the bone screw assembly; transitioning an anvil of the rod reducer to transition a first arm and grasping members of the rod reducer from a radially expanded position to a closed position, in which, the first arm and the grasping members of the rod reducers are radially contracted to engage the bone screw assembly; reducing the spinal rod into the rod receiving portion; and rotating a locking screw of the rod reducer to move a locking anvil to advance a locking plug into a bone screw housing of the bone screw assembly to secure the spinal rod to the rod receiving portion, the locking screw and the locking anvil being rotatably coupled to one another. 11. The method of claim 10 , wherein the step of transitioning the anvil includes rotating a reducing screw of the rod reducer. 12. The method of claim 10 , further comprising partially advancing the locking plug into the bone screw housing of the bone screw assembly and making adjustments to the spinal rod. 13. The method of claim 10 , wherein the reducing step includes rotating a reducing screw of the rod reducer. 14. The method of claim 13 , wherein the locking screw and the locking anvil are rotatably coupled together. 15. The method of claim 10 , wherein rotating the reducing screw of the rod reducer includes engaging the first arm of the rod reducer with the rod receiving portion of the bone screw. 16. The method of claim 15 , wherein rotating the reducing screw of the rod reducer includes engaging the grasping members with the bone screw housing of the bone screw assembly. 17. The method of claim 10 , wherein the locking anvil advances within a cutout of the anvil. 18. A method of reducing a spinal rod comprising: transitioning a rod reducer to an open state, in which, distal ends of a first arm and grasping members of the rod reducer are radially expanded; positioning the rod reducer over a bone screw assembly; positioning a spinal rod adjacent a rod receiving portion of the bone screw assembly; rotating a reducing screw of the rod reducer to transition an anvil of the rod reducer away from a housing of the rod reducer to a closed state, in which, the distal ends of the first arm and the grasping members of the rod reducers are radially contracted, the grasping members engage the bone screw housing of the bone screw assembly, and the first arm of the rod reducer engages the rod receiving portion of the bone screw assembly; reducing the spinal rod into the rod receiving portion; and rotating a locking screw of the rod reducer to axially move a locking anvil relative to the anvil to advance a locking plug into a bone screw housing of the bone screw assembly to transition the housing of the bone screw assembly to a locked state to secure the spinal rod to the rod receiving portion, the locking screw and the locking anvil being rotatably coupled to one another.