Spinal fixation construct and methods of use

What is claimed is: 1. A method for aligning vertebral bodies comprising: implanting a bone screw into a vertebral body of a spine; positioning a portion of a spinal rod within a housing of the bone screw, the spinal rod formed from a first material having a first modulus of elasticity and including an elongated body having first and second ends; and securing a portion of a flexible member to the spinal rod, the flexible member formed from a second material having a second modulus of elasticity that is lower than the first modulus of elasticity, and including an elongated body having opposed first and second end portions, wherein securing the portion of the flexible member to the spinal rod includes: placing the first and second end portions of the flexible member adjacent to the portion of the spinal rod positioned within the housing of the bone screw and positioning the first and second end portions of the flexible member against an outer surface of the spinal rod; and compressing the first and second end portions of the flexible member against the spinal rod within the housing of the bone screw with a set screw. 2. The method according to claim 1 , further comprising implanting a fixation member into a bony element of the spine in spaced relation relative to the spinal rod, and securing a portion of the flexible member to the fixation member. 3. The method according to claim 2 , wherein the fixation member includes a head portion defining a hole therethrough, and wherein securing the portion of the flexible member to the fixation member includes passing the portion of the flexible member through the hole of the fixation member. 4. The method according to claim 3 , wherein the hole of the head portion of the fixation member has a shape including a lateral dimension and a longitudinal dimension, one of the lateral and longitudinal dimensions being larger than the other of the lateral and longitudinal dimensions, and the flexible member has a shape complementary to the shape of the hole, and wherein passing the portion of the flexible member through the hole of the fixation member includes orienting the flexible member through the hole such that the shape of the flexible member corresponds with the shape of the hole of the head portion. 5. The method according to claim 3 , wherein securing the portion of the flexible member to the fixation member further includes looping the flexible member through the head portion of the fixation member. 6. The method according to claim 1 , further comprising: implanting a second bone screw into the vertebral body of the spine such that the bone screw and the second bone screw are on opposed sides of a spinous process of the vertebral body; positioning a portion of a second spinal rod within a housing of the second bone screw, the second spinal rod including an elongated body having first and second ends; and securing a portion of a second flexible member to the second spinal rod, the second flexible member including an elongated body having first and second end portions. 7. The method according to claim 6 , wherein securing the portion of the second flexible member to the second spinal rod includes placing the first and second end portions of the second flexible member adjacent to the portion of the second spinal rod positioned within the housing of the second bone screw, and compressing the first and second end portions of the second flexible member against the second spinal rod with a set screw of the second bone screw. 8. The method according to claim 6 , further comprising implanting a second fixation member into a bony element of the spine in spaced relation relative to the second spinal rod, and securing a portion of the second flexible member to the second fixation member. 9. The method according to claim 8 , wherein the second fixation member includes a head portion defining a hole therethrough, and wherein securing the portion of the second flexible member to the second fixation member includes passing the portion of the second flexible member through the hole of the second fixation member. 10. The method according to claim 1 , wherein securing the portion of the flexible member to the spinal rod includes extending the elongated body of the flexible member from the spinal rod to vary stiffness along a longitudinal axis of a spinal construct including the spinal rod and the flexible member. 11. A method for aligning vertebral bodies comprising: implanting a bone screw into a vertebral body of a spine; positioning a portion of a spinal rod within a housing of the bone screw, the spinal rod formed from a first material having a first modulus of elasticity and including an elongated body having first and second ends; securing a portion of a flexible member to the spinal rod, the flexible member formed from a second material having a second modulus of elasticity that is lower than the first modulus of elasticity, and including an elongated body having opposed first and second end portions, wherein securing the portion of the flexible member to the spinal rod includes: placing the first and second end portions of the flexible member adjacent to the portion of the spinal rod positioned within the housing of the bone screw; and compressing the first and second end portions of the flexible member against the spinal rod within the housing of the bone screw with a set screw; implanting a fixation member into a bony element of the spine in spaced relation relative to the spinal rod; and securing a portion of the flexible member to the fixation member, the fixation member including a head portion defining a hole therethrough, wherein securing the portion of the flexible member to the fixation member includes: passing the portion of the flexible member through the hole of the fixation member; and looping the flexible member through the head portion of the fixation member. 12. The method according to claim 11 , wherein securing the portion of the flexible member to the fixation member includes the hole of the head portion of the fixation member having a shape having a lateral dimension and a longitudinal dimension, one of the lateral and longitudinal dimensions being larger than the other of the lateral and longitudinal dimensions, and the flexible member having a shape complementary to the shape of the hole, and wherein passing the portion of the flexible member through the hole of the fixation member includes orienting the flexible member through the hole such that the shape of the flexible member corresponds with the shape of the hole of the head portion. 13. The method according to claim 11 , further comprising: implanting a second bone screw into the vertebral body of the spine such that the bone screw and the second bone screw are on opposed sides of a spinous process of the vertebral body; positioning a portion of a second spinal rod within a housing of the second bone screw, the second spinal rod including an elongated body having first and second ends; and securing a portion of a second flexible member to the second spinal rod, the second flexible member including an elongated body having first and second end portions. 14. The method according to claim 13 , wherein securing the portion of the second flexible member to the second spinal rod includes placing the first and second end portions of the second flexible member adjacent to the portion of the second spinal rod positioned within the housing of the second bone screw, and compressing the first and second end portions of the second flexible member against the second spinal rod with a set screw of the second bone screw.