Percutaneous modular head-to-head cross connector

What is claimed is: 1. A method of percutaneous delivery of a head-to-head cross connector system for use with a surgical screw system, said cross connector system comprising a fastener element with an rigid orbital head located at a distal end, a first U-shaped body having a first rod receiving channel there between, a first compression element comprising a rigid orbital head at a distal end, a second U-shaped body having a second rod receiving channel there between, and a second compression element, the method comprising: receiving the rigid orbital head of the fastener element in a proximal end of the first U-shaped body; driving the fastener element into a bone in a first orientation; receiving a first rod in the first rod receiving channel of the first U-shaped body; positioning the first U-shaped body and the first rod in a second orientation; driving the first compression element into a distal end of the first U-shaped body so that the first compression element is adjacent to the first rod in the first rod receiving channel, thereby engaging the first rod against the rigid orbital head of the fastener element; receiving the rigid orbital head of the first compression element in a proximal end of the second U-shaped body; receiving a second rod in the second rod receiving channel of the second U-shaped body; positioning the second U-shaped body and the second rod in a third orientation; and driving the second compression element into a distal end of the second U-shaped body so that the second compression element is against the second rod in the second rod receiving channel, thereby engaging the second rod against the rigid orbital head of the first compression element. 2. The method of claim 1 , wherein the step of driving the first compression element into a distal end of the first U-shaped body further comprises: partially driving the first compression element against the first rod such that the first U-shaped body and the first rod can be pivoted relative to the rigid orbital head of the fastener element and the first rod can be repositioned along its longitudinal axis within the first rod receiving channel. 3. The method of claim 2 , wherein the step of driving the first compression element into a distal end of the first U-shaped body further comprises: further driving the first compression element against the first rod, thereby engaging the first rod against the rigid orbital head of the fastener element, and thereby locking the second orientation of the first rod with respect to the first orientation of the fastener element and locking the position of the first rod along its longitudinal axis within the first rod receiving channel. 4. The method of claim 3 , wherein the step of driving the second compression element into the distal end of the second U-shaped body further comprises: partially driving the second compression element against the second rod such that the second U-shaped body and the second rod can be pivoted relative to the rigid orbital head of the first compression element and the second rod can be repositioned along its longitudinal axis within the second rod receiving channel. 5. The method of claim 4 , wherein the step of driving the second compression element into the distal end of the second U-shaped body further comprises: further driving the second compression element against the second rod, thereby engaging the second rod against the rigid orbital head of the first compression element, and thereby locking the third orientation of the second rod with respect to the second orientation of the first rod and the first orientation of the fastener element and locking the position of the second rod along its longitudinal axis within the second rod receiving channel. 6. The method of claim 1 , wherein receiving a first rod in the first rod receiving channel of the first U-shaped body further comprises: placing the first rod into a gap defined between a first removable arm and a second removable arm that are attached to respective sides of the first U-shaped body; and displacing the first rod towards the first U-shaped body until the first rod is received into the first rod receiving channel. 7. The method of claim 6 , further comprising detaching the first and second removable arms from the first U-shaped body. 8. The method of claim 7 , wherein receiving a second rod in the second rod receiving channel of the second U-shaped body further comprises: placing the second rod into a gap defined between a first removable arm and a second removable arm that are attached to respective sides of the second U-shaped body; and displacing the second rod towards the second U-shaped body until the second rod is received into the second rod receiving channel. 9. The method of claim 8 , further comprising detaching the first and second removable arms from the second U-shaped body. 10. The method of claim 1 , further comprising a method for adding a second construct to the cross-connector system, said second construct comprising a second faster element with a rgid orbital head located at a distal end, a third U-shaped body having a third rod receiving channel there between, a third compression element comprising a rigid orbital head at a distal end, a fourth U-shaped body having a fourth rod receiving channel there between, and a fourth compression element, the method comprising: receiving the rigid orbital head of the second fastener element in the proximal end of the third U-shaped body; driving the second fastener element into a bone in a fourth orientation; receiving a third rod in the third rod receiving channel of the third U-shaped body; positioning the third U-shaped body and the third rod in a fifth orientation; driving the third compression element into the distal end of the third U-shaped body so that the third compression element is adjacent to the third rod in the third rod receiving channel, thereby engaging the third rod against the rigidorbital head of the second fastener element; receiving the rigid orbital head of the third compression element in a proximal end of the fourth U-shaped body; receiving the second rod in the fourth rod receiving channel of the fourth U-shaped body; positioning the fourth U-shaped body and the second rod in the third orientation; and driving a fourth compression element into the distal end of the fourth U-shaped body so that the fourth compression element is against the second rod in the fourth rod receiving channel, thereby engaging the second rod against the rigid orbital head of the third compression element. 11. The method of claim 10 , applied using a minimally invasive surgical technique. 12. The method of claim 10 , applied using an open surgical technique. 13. The method of claim 1 , wherein the third orientation of the second rod is substantially orthogonal to the second orientation of the first rod. 14. The method of claim 1 , wherein the third orientation of the second rod is substantially in-line with the second orientation of the first rod. 15. The method of claim 1 , applied using a minimally invasive surgical technique. 16. The method of claim 1 , applied using an open surgical technique. 17. A method of percutaneous delivery of a head-to-head cross connector system for use with a surgical screw system, said cross connector system comprising a fastener element with a rigid orbital head located at a distal end, a first U-shaped body having a first removable arm and a second removable arm that are attached to proximal ends of the first U-shaped body and a first rod receiving chann