Spinal correction system and method

What is claimed is: 1. A spinal correction apparatus comprising: a body extending along a central longitudinal axis between opposite first and second ends, the body defining a cavity; a drive screw disposed within the cavity and including a threaded outer surface; a carriage disposed within the cavity; a pawl disposed within the cavity such that the pawl is pivotable relative to the carriage, the pawl including gear teeth that directly engage the threaded outer surface; a first rod disposed within the cavity and connected to the carriage; and an actuator coupled to the body and configured to rotate the drive screw relative to the pawl to facilitate incremental movement of the first rod relative to the body in opposite first and second axial directions. 2. The spinal correction apparatus recited in claim 1 , wherein the first rod extends along a longitudinal axis that is offset from the central longitudinal axis. 3. The spinal correction apparatus recited in claim 1 , wherein the first rod extends through an opening in the first end. 4. The spinal correction apparatus recited in claim 1 , further comprising a second rod disposed within the cavity such that the second rod extends through an opening in the second end and is coaxial with the first rod. 5. The spinal correction apparatus recited in claim 4 , wherein the second rod is spaced apart from the first rod. 6. The spinal correction apparatus recited in claim 1 , wherein the first rod includes a threaded outer surface that directly engages a threaded inner surface of the carriage to connect the first rod with the carriage. 7. The spinal correction apparatus recited in claim 1 , further comprising a spring and a plunger that are each disposed in a recess of the pawl such that the spring biases the plunger against a wall of the body to pivot the pawl relative to the carriage and force the gear teeth into a releasable mesh fixation and a fixed position with the threaded outer surface. 8. The spinal correction apparatus recited in claim 1 , wherein the drive screw includes gear teeth, the gear teeth of the drive screw being spaced apart from the threaded outer surface. 9. The spinal correction apparatus recited in claim 8 , wherein the threaded outer surface defines a first maximum diameter of the drive screw and the gear teeth of the drive screw define a second maximum diameter of the drive screw, the second maximum diameter being greater than the first maximum diameter. 10. The spinal correction apparatus recited in claim 1 , wherein the drive screw includes gear teeth, the gear teeth of the drive screw being spaced apart from the threaded outer surface, the actuator comprising a worm gear having a threaded outer surface that directly engages the gear teeth of the drive screw. 11. The spinal correction apparatus recited in claim 1 , wherein the actuator is a worm gear that rotates relative to the body about an axis that extends perpendicular to the central longitudinal axis. 12. A spinal correction apparatus comprising: a sleeve extending along a central longitudinal axis between opposite first and second ends, the sleeve defining a cavity; a drive screw rotatably disposed within the cavity, the drive screw including a threaded outer surface and first gear teeth; a carriage movably disposed within the cavity; a pawl disposed within the cavity such that the pawl is pivotable relative to the carriage, the pawl including second gear teeth that directly engage the threaded outer surface; a first rod disposed within the cavity such that the first rod is fixed to the carriage; a second rod coupled to the sleeve such that the second rod is fixed relative to the sleeve; and an actuator coupled to the body and including a worm gear configured to engage the first gear teeth to rotate the drive screw relative to the pawl in opposite first and second rotational directions to facilitate incremental movement of the first rod relative to the sleeve in opposite first and second axial directions. 13. The spinal correction apparatus recited in claim 12 , wherein the rods each extend along a longitudinal axis that is offset from the central longitudinal axis. 14. The spinal correction apparatus recited in claim 12 , wherein the first rod extends through an opening in the first end and the second rod extends through an opening in the second end. 15. The spinal correction apparatus recited in claim 12 , wherein the first rod is disposed in a telescopic configuration with the sleeve. 16. The spinal correction apparatus recited in claim 12 , wherein the worm gear defines a socket configured for engagement with an instrument, the socket extending perpendicular to the central longitudinal axis. 17. The spinal correction apparatus recited in claim 12 , wherein the first rod comprises an outer surface that is threaded with a threaded cavity of the carriage. 18. The spinal correction apparatus recited in claim 12 , further comprising an end cap coupled to the second end, the end cap comprising a channel that extends perpendicular to the central longitudinal axis, the worm gear being disposed in the channel. 19. The spinal correction apparatus recited in claim 18 , wherein the end cap defines a cavity that supports the drive screw. 20. A spinal correction apparatus comprising: a sleeve extending along a central longitudinal axis between opposite first and second ends, the sleeve defining a cavity; a drive screw rotatably disposed within the cavity, the drive screw including a threaded outer surface and first gear teeth; a carriage movably disposed within the cavity; a pawl disposed within the cavity such that the pawl is pivotable relative to the carriage, the pawl including second gear teeth that directly engage the threaded outer surface; a first rod disposed within the cavity such that an outer surface of the first rod is threaded with a threaded cavity of the carriage, the first rod being disposed in a telescopic configuration with the sleeve; a second rod coupled to the sleeve such that the second rod is fixed relative to the sleeve, the rods each extending along a longitudinal axis that is offset from the central longitudinal axis and extends parallel to the central longitudinal axis; and an actuator coupled to the sleeve and including a worm gear configured to engage the first gear teeth to rotate the drive screw relative to the pawl in opposite first and second rotational directions to facilitate incremental movement of the first rod relative to the sleeve in opposite first and second axial directions.