Rod reducer, compressor, distractor system

What is claimed: 1. A method for manipulating vertebrae comprising: accessing the spinal area of a patient having a pedicle screw secured to each of at least two vertebrae; engaging each pedicle screw with an inner member having distal and proximal ends defining a longitudinal axis therebetween, the distal end of each inner member receiving a head of the pedicle screw; advancing an outer member having distal and proximal ends distally along each of the inner members by rotating the proximal end of each of the outer members relative to each inner member, a pair of receiving slots on the distal end of each outer member receiving a portion of a spinal rod, each pair of receiving slots advancing the spinal rod into a saddle portion of the head of each pedicle screw; attaching a force applying device and a fulcrum to an outer surface of each outer member, the force applying device including first and second hook members and having a compressing configuration when the first and second hook members are attached to each outer member with each of the outer members between the first and second hook members and a distracting configuration when the first and second hook members are attached to each outer member with the first and second hook members between each of the outer members; manipulating each outer member with the force applying device until each of the pedicle screws is in a desired position with respect to the spinal rod; and securing each pedicle screw to the spinal rod with a set screw. 2. The method of claim 1 , wherein the force applying device further includes a neutral configuration and the second hook member includes a switch assembly having a first, a second, and a third position, each position corresponding to a configuration of the force applying device. 3. The method of claim 1 , wherein the first and second hook members each include a hook portion, each hook portion having a compressing hook and a distracting hook. 4. The method of claim 1 , wherein the fulcrum is attached to a gripping portion of each outer member. 5. The method of claim 1 , wherein the step of advancing further includes attaching an anti-torque handle to a distal segment of each outer member and attaching a turning handle to a proximal segment of each outer member. 6. The method of claim 1 , wherein the method further includes the step of inserting at least one set screw through an inner member and at least partially locking the rod to at least one of the pedicle screws before the step of manipulating the each outer member. 7. A method for manipulating vertebrae comprising: securing a first elongate member to a first pedicle screw that is secured in a first vertebra; securing a second elongate member to a second pedicle screw that is secured in a second vertebra; and manipulating the first and second elongate members with a force applying device until the first and second pedicle screws are in a desired position, the force applying device having first and second hook members, each hook member having a distracting hook and a compressing hook. 8. The method according of to claim 7 , wherein manipulating the first and second elongate members with the force applying device includes positioning the first and second elongate members between the first and second hook members of the force applying device to compress the first and second elongate members towards one another. 9. The method according of to claim 7 , wherein manipulating the first and second elongate members with the force applying device includes positioning the first and second hook members of the force applying device between the first and second elongate members to distract the first and second elongate members away from one another. 10. The method according of to claim 7 , further comprising positioning a fulcrum over a distal proximal end of each of the first and second elongate members before manipulating the first and second elongate members with the force applying device. 11. The method according to claim 10 , wherein manipulating the elongate members with the force applying device includes engaging the first elongate member with the first hook member between the fulcrum and the pedicle screw and engaging the second elongate member with the second hook member between the fulcrum and the pedicle screw. 12. The method according of to claim 7 , further comprising: reducing a spinal rod into a head of the first pedicle screw with the first elongate member; and reducing the spinal rod into a head of the second pedicle screw with the second elongate member. 13. A method for manipulating vertebrae comprising: securing a first elongate member to a first pedicle screw that is secured in a first vertebra; securing a second elongate member to a second pedicle screw that is secured in a second vertebra; and manipulating the first and second elongate members with a force applying device until the first and second pedicle screws are in a desired position, the force applying device having a compressing configuration, a distracting configuration, and a neutral configuration and including two hook members, at least one of the two hook members including switch assembly for selecting a respective one of the compressing, distracting, and neutral configurations, the switch assembly defining detents which each correspond to a respective one of the compressing, distracting, and neutral configurations of the force applying device. 14. The method according to claim 10, wherein positioning the fulcrum over the proximal end of each of the first and second elongate members comprises positioning each of the first and second elongate members in a respective through hole of a plurality of through holes extending through the fulcrum. 15. The method according to claim 14, wherein the plurality of through holes extending through the fulcrum includes multiple through holes for each of the first and second elongate members, the through holes being spaced apart from one another such that each of the first and second elongate members can be selectively received within different ones of the multiple through holes, so as to thereby define a variable spacing between the first and second elongate members at a location where the fulcrum receives the first and second elongate members. 16. The method according to claim 15, wherein the plurality of first and second through holes are aligned along an axis of the fulcrum, the through holes being spaced apart along the axis. 17. The method according to claim 14, wherein each of the plurality of through holes includes a bearing ring received within the respective through hole. 18. The method of claim 1, wherein the fulcrum includes a plurality of through holes configured to receive each of the outer members therein. 19. The method of claim 18, wherein the plurality of through holes in the fulcrum includes multiple through holes for each of the outer members, the through holes being spaced apart from one another such that each outer member can be selectively received within different ones of the multiple through holes, so as to thereby define a variable spacing between the outer members at a location where the fulcrum receives the outer members. 20. The method of claim 19, wherein the plurality of through holes are aligned along an axis of the fulcrum, the through holes being spaced apart along the axis. 21. The method of claim 18, wherein each of the plurality of through holes includes a bearing ring received within the respective through hole.