Transverse coupler adjuster spinal correction systems and methods

What is claimed is: 1. A transverse coupler for a spinal correction system, the transverse coupler comprising: an adjustment assembly configured to be secured to a first rod extending longitudinally along a first side of a spine, the adjustment assembly including a rider, a retainer, and a first rod coupler, the first rod coupler configured to receive the first rod such that the first rod is free to translate axially through the first rod coupler, pivot in pitch and yaw at the first rod coupler, and roll within the first rod coupler; an adjustment arm configured to be secured to a second rod extending longitudinally along a second side of a spine and to be extended from a second side of a spine toward a first side of a spine, the adjustment arm defining a first end, a second end, a first surface, a second surface, and a longitudinal axis extending from the first end to the second end; a force directing member with an elongate body configured to couple with the rider and the first end of the adjustment arm, the rider and the elongate body being configured to form a complementary fit, wherein the rider can move along the elongate body and couple with the adjustment arm at a plurality of angles; a first intermediate anchor adapted to be positioned along the second rod between the adjustment arm and a first stabilizing anchor; and a second intermediate anchor adapted to be positioned along the second rod between the adjustment arm and a second stabilizing anchor, wherein each of the first and second intermediate anchors is adapted to substantially constrain the second rod against substantial lateral translation. 2. The transverse coupler of claim 1 , wherein the retainer of the adjustment assembly is configured to couple to and move along the elongate body of the force directing member such that a distance and an orientation of the rider changes with respect to the adjustment arm and the rider can couple with the adjustment arm. 3. The transverse coupler of claim 1 , wherein the elongate body has a threaded portion and the retainer includes a threaded cap configured to mate with the threaded portion of the elongate body. 4. The transverse coupler of claim 1 , wherein the force directing member is a post and the rider includes a slot with a top surface and bottom surface such that the slot is configured to receive the force directing member. 5. The transverse coupler of claim 1 , wherein the adjustment arm includes an aperture in the first end extending from the first surface to the second surface, the aperture being adapted to receive the force directing member such that the force directing member is free to angulate with respect to the first surface. 6. The transverse coupler of claim 5 , wherein the first surface of the adjustment arm is configured to engage with the rider and the force directing member extends from the first surface of the adjustment arm at an adjustable angle relative to the longitudinal axis, the adjustable angle ranging from 0 to 90 degrees. 7. The transverse coupler of claim 1 , wherein the force directing member is rigidly secured to the first end of the adjustment arm and extends from the first surface of the adjustment arm at a substantially fixed angle relative to the longitudinal axis. 8. The transverse coupler of claim 7 , wherein the force directing member extends from the first surface of the adjustment arm at a substantially orthogonal angle relative to the longitudinal axis. 9. The transverse coupler of claim 1 , wherein the first rod coupler of the adjustment assembly is configured to receive the first rod such that the first rod is free to change in at least roll within the first rod coupler. 10. The transverse coupler of claim 1 , wherein the first rod coupler includes a sleeve insert forming a revolute, substantially convex articulation surface and a body that forms a substantially concave articulation surface for receiving the sleeve insert. 11. The transverse coupler of claim 1 , wherein the first rod coupler is configured to be transitioned from an unlocked state in which the first rod is free to move in at least one of axial translation, pitch, yaw or roll with respect to the first rod coupler to a locked state in which the first rod received by the first rod coupler is substantially laterally constrained and locked against axial translation, changes in pitch and yaw about a rod pivot point, and roll with respect to the first rod coupler. 12. The transverse coupler of claim 1 , wherein the second end of the adjustment arm is configured to be secured to an anchor point on a second side of a spine where the anchor point includes a second rod coupler configured to be secured to the second rod. 13. The transverse coupler of claim 12 , wherein of the second rod coupler of the adjustment arm is configured to be substantially laterally constrained by the second rod received by the second rod coupler. 14. The transverse coupler of claim 13 , wherein the second rod coupler defines a rod pivot point and is configured to be transitioned from an unlocked state in which the second rod received by the second rod coupler is free to move in at least one of axial translation, pitch, yaw or roll about the rod pivot point to a locked state in which the second rod received by the second rod coupler is substantially laterally constrained and locked against axial translation and changes in pitch and yaw about the rod pivot point with respect to the second rod coupler. 15. The transverse coupler of claim 12 , wherein the adjustment assembly and the adjustment arm are configured to be transitioned from an unlocked state in which the first rod is free to move in at least one of axially translate, pitch, yaw or roll with respect to the anchor point on the second side of the spine to a locked state in which the first rod is substantially laterally constrained and locked against axial translation, changes in pitch and yaw about the rod pivot point, and roll with respect to the anchor point on the second side of the spine. 16. A transverse coupler for a spinal correction system, the transverse coupler comprising: an adjustment assembly configured to be secured to a first rod extending longitudinally along a first side of a spine, the adjustment assembly including a rider, a retainer, and a first rod coupler; an adjustment arm configured to be secured to a second rod extending longitudinally along a second side of a spine and to be extended from a second side of a spine toward a first side of a spine, the adjustment arm defining a first end, a second end, a first surface, a second surface, and a longitudinal axis extending from the first end to the second end; and a force directing member with an elongate body configured to couple with the rider and the first end of the adjustment arm, the rider and the elongate body being configured to form a complementary fit, wherein the rider can move along the elongate body and couple with the adjustment arm at a plurality of angles, wherein the adjustment arm includes an aperture in the first end extending from the first surface to the second surface, the aperture being adapted to receive the force directing member such that the force directing member extends from the first surface of the adjustment arm and is free to angulate with respect to the first surface. 17. A transverse coupler for a spinal correction system, the transverse coupler comprising: an adjustment assembly configured to be secured to a first rod extending longitudinally along a first side of a spine, the adjustment assembly including a rider, a retainer, and a first rod