Spinal stabilization system

What is claimed is: 1. A spinal stabilization system comprising: a connecting rod including an elongate rounded section having a circular cross-section, an elongate head portion having a non-circular cross-section, and a neck portion connecting the elongate rounded section with the elongate head portion, the connecting rod being monolithically formed, wherein a centroid of the neck portion is closer to a centroid of the elongate head portion than a centroid of the elongate rounded section; and a bone screw defining a longitudinal axis, the bone screw including a head portion defining a slot, and a shank extending from the head portion, the head portion defining the slot having a U-shape orthogonal to the longitudinal axis of the bone screw to receive the connecting rod, wherein a portion of the slot is complementary to the elongate rounded section of the connecting rod. 2. The spinal stabilization system according to claim 1 , wherein the head portion of the bone screw includes a trailing wall and a leading wall, the trailing wall including a lip extending radially inward, the lip defining an aperture. 3. The spinal stabilization system according to claim 2 , wherein at least one of the leading wall or the trailing wall includes a surface configured to engage a portion of the elongate head portion of the connecting rod. 4. The spinal stabilization system according to claim 3 , wherein the surface of the at least one of the leading wall or the trailing wall is planar to inhibit rotation of the connecting rod when the connecting rod is disposed in the slot of the head portion of the bone screw. 5. The spinal stabilization system according to claim 2 , wherein the bone screw further includes a set screw and the lip of the trailing wall includes threads configured to engage threads on the set screw. 6. The spinal stabilization system according to claim 1 , wherein the slot of the head portion of the bone screw is dimensioned to inhibit rotation of the connecting rod when the connecting rod is disposed in the slot. 7. The spinal stabilization system according to claim 1 , wherein the bone screw is formed of a biocompatible material. 8. A spinal stabilization system comprising: a connecting rod including an elongate rounded section having a circular cross-section, an elongate head portion having an elongated, non-circular cross-section, and a neck portion connecting the elongate rounded section with the elongate head portion by extending from the elongate rounded section to the elongate head portion along a neck axis, the connecting rod being monolithically formed, wherein a centroid of the neck portion is closer to a centroid of the elongate head portion than a centroid of the elongate rounded section; and a bone screw including a head portion defining a slot, a shank extending from the head portion, and a set screw configured to secure the connecting rod in the slot, the head portion including a leading wall, a trailing wall, and a transverse wall connecting the leading and trailing walls, the slot defined between the leading and trailing walls, the trailing wall defining an aperture dimensioned to receive the set screw, the aperture in communication with the slot, the transverse wall includes an arcuate portion configured to receive the elongate rounded section of the connecting rod. 9. The spinal stabilization system according to claim 8 , wherein the trailing wall includes a lip extending radially inward, the lip defining the aperture. 10. The spinal stabilization system according to claim 9 , wherein the lip includes threads configured to engage threads on the set screw. 11. The spinal stabilization system according to claim 8 , wherein the slot is substantially U-shaped. 12. The spinal stabilization system according to claim 11 , wherein the slot is substantially orthogonal to a longitudinal axis defined by the bone screw. 13. The spinal stabilization system according to claim 8 , wherein the elongated cross-section of the elongate head portion has a length dimension and a width dimension, the width dimension being smaller than the length dimension, and the length dimension extending transverse to the neck axis. 14. A method of surgery comprising: inserting a first bone screw into a vertebral body; bending a connecting rod including an elongate rounded section having a circular cross-section, an elongate head portion having a non-circular cross-section, and a neck portion connecting the elongate rounded section with the elongate head portion to conform to a desired configuration, the connecting rod being monolithically formed, wherein a centroid of the neck portion is closer to a centroid of the elongate head portion than a centroid of the elongate rounded section; positioning the connecting rod in a slot defined in a head portion of the first bone screw, the slot including an opening orthogonal to a longitudinal axis of the first bone screw, the slot including an arcuate portion complementary to the elongate rounded section of the connecting rod; and securing the elongate head portion of the connecting rod with the head portion of the first bone screw. 15. The method according to claim 14 , wherein positioning the connecting rod includes positioning the connecting rod in the slot through the opening interposed between trailing and leading walls of the head portion of the first bone screw. 16. The method according to claim 15 , wherein securing the elongate head portion of the connecting rod includes threading a set screw through an aperture defined in the trailing wall of the head portion of the first screw such that the set screw engages the elongate head portion of the connecting rod disposed in the slot. 17. The method according to claim 14 , further comprising adjusting a curve of the spine prior to securing the connecting rod with the first bone screw.