Method and system for trans-lamina spinal fixation

What is claimed is: 1. A method of providing spinal stabilization, comprising: positioning a first plurality of fixation assemblies within a first plurality of vertebrae in a trans-lamina orientation such that a proximal receiving head of each fixation assembly is disposed on a first side of a midline of a patient's spinal column and a distal end of each fixation assembly is disposed on a second, opposite side of the midline of the patient's spinal column; positioning a second plurality of fixation assemblies within a second plurality of vertebrae in a trans-lamina orientation such that a proximal receiving head of each fixation assembly is disposed on the second side of the midline of the patient's spinal column and a distal end of each fixation assembly is disposed on the first side of the midline of the patient's spinal column; positioning a first spinal stabilization element within the proximal receiving heads of the first plurality of fixation assemblies; and positioning a second spinal stabilization element within the proximal receiving heads of the second plurality of fixation assemblies; wherein the first plurality of vertebrae are distinct from the second plurality of vertebrae and each of the first plurality of vertebrae is adjacent to one of the second plurality of vertebrae and not adjacent to others of the first plurality of vertebrae. 2. The method of claim 1 , wherein the first spinal stabilization element extends parallel to and offset from the midline of the patient's spinal column on the first side of the midline and the second spinal stabilization element extends parallel to and offset from the midline of the patient's spinal column on the second side of the midline. 3. The method of claim 1 , further comprising removing a portion of each vertebra of the first and second plurality of vertebrae. 4. The method of claim 1 , wherein the first and second spinal stabilization elements are stabilization rods. 5. The method of claim 1 , wherein at least one of the first and second plurality of vertebrae is a cervical vertebra. 6. A method of providing spinal stabilization, comprising: positioning a first plurality of fixation assemblies within every other of a plurality of vertebrae in an orientation angled away from a spinal canal of a patient such that each fixation assembly extends across a midline of the patient's spinal column and such that a receiver head of each of the first plurality of fixation assemblies is disposed on a first side of said midline; positioning a second plurality of fixation assemblies within those of the plurality of vertebrae in which the first plurality of fixation assemblies are not disposed, the second plurality of fixation assemblies being positioned in an orientation angled away from the spinal canal of the patient such that each fixation assembly extends across the midline of the patient's spinal column and such that a receiver head of each of the second plurality of fixation assemblies is disposed on a second, opposite side of said midline; positioning a first spinal stabilization element within the receiving heads of the first plurality of fixation assemblies; and positioning a second spinal stabilization element within the receiving heads of the second plurality of fixation assemblies. 7. The method of claim 6 , wherein the first spinal stabilization element extends parallel to and offset from the midline of the patient's spinal column on the first side of the midline and the second spinal stabilization element extends parallel to and offset from the midline of the patient's spinal column on the second side of the midline. 8. The method of claim 6 , further comprising removing a portion of each vertebra of the plurality of vertebrae. 9. The method of claim 6 , wherein the first and second spinal stabilization elements are stabilization rods. 10. The method of claim 6 , wherein at least one of the plurality of vertebrae is a cervical vertebra. 11. A method of providing spinal stabilization, comprising: positioning a first plurality of fixation assemblies within a first plurality of vertebrae in a trans-lamina orientation such that a proximal receiving head of each fixation assembly is positioned along and above a midline of a patient's spinal column; positioning a second plurality of fixation assemblies within a second plurality of vertebrae in a trans-lamina orientation such that a proximal receiving head of each fixation assembly is positioned along and above the midline of the patient's spinal column; and positioning a spinal stabilization element within the proximal receiving heads of the first and second plurality of fixation assemblies; wherein the first plurality of vertebrae are distinct from the second plurality of vertebrae and each of the first plurality of vertebrae are adjacent to one of the second plurality of vertebrae and not adjacent to others of the first plurality of vertebrae. 12. The method of claim 11 , further comprising removing a portion of each vertebra of the first and second plurality of vertebrae. 13. The method of claim 11 , wherein the spinal stabilization element is a stabilization rod. 14. The method of claim 11 , wherein at least one vertebra of the first and second plurality of vertebrae is a cervical vertebra. 15. The method of claim 11 , wherein the spinal stabilization element extends along at least four vertebrae.