Distal radius stabilization system

What is claimed is: 1. A targeting guide for use with a volar distal radius plate, comprising: a body having an upper portion configured to be disposed on a head portion of the volar distal radius plate and a lower portion configured to couple the targeting guide to the volar distal radius plate; a plurality of cannulated openings corresponding to respective openings of the volar distal radius plate, wherein the cannulated openings are configured to facilitate drilling pilot holes and inserting fasteners at desired trajectories through the openings of the volar distal radius plate; a counterbored hole extending through the body; a retaining arm disposed adjacent the counterbored hole and extending from the lower portion of the body and into an opening in the volar distal radius plate, wherein the retaining arm includes a detent configured to receive and mate with a portion of the opening of the volar distal radius plate and a flange extending radially outward from a distal end of the retaining arm; and a cam screw disposed through the counterbored hole, wherein the cam screw includes a head and a shaft extending from the head, wherein the shaft includes a radially outwardly extending flange extending from a distal end of the shaft. 2. The targeting guide of claim 1 , further comprising: a plurality of k-wire openings corresponding to a plurality of k-wire openings in the volar distal radius plate. 3. The targeting guide of claim 1 , wherein in the unlocked position, the radially outwardly extending flange of the cam screw is disposed adjacent the flange of the retaining arm, and wherein in the locked position, the radially outwardly extending flange of the cam screw extends in a substantially opposite direction as the flange of the retaining arm. 4. The targeting guide of claim 1 , further comprising: a dowel pin extending through an opening formed in the targeting guide, wherein the opening extends transverse to the counterbored hole, and wherein the dowel pin extends above the cam screw to prevent the cam screw from backing out. 5. The targeting guide of claim 1 , wherein the body further includes a neck portion extending between the upper portion and the lower portion. 6. The targeting guide of claim 1 , wherein the upper portion is adjacent the lower portion. 7. The targeting guide of claim 1 , wherein the body does not surround k-wire holes in the volar distal radius plate. 8. A stabilization system for stabilizing a bone, the system comprising: a bone plate, the bone plate comprising an elongated portion extending along a longitudinal axis, an enlarged head portion, a transition region connecting the elongated portion to the enlarged head portion, and a plurality of through holes extending through the elongated portion and the head portion; a targeting guide coupled to the bone plate, comprising: a body having an upper portion configured to be disposed on the enlarged head portion of the bone plate and a lower portion configured to couple the targeting guide to the bone plate; a plurality of cannulated openings corresponding to respective through holes of the bone plate, wherein the cannulated openings are configured to facilitate drilling pilot holes and inserting fasteners at desired trajectories through the through holes of the bone plate; a counterbored hole extending through the body; a retaining arm disposed adjacent the counterbored hole and extending from the lower portion of the body and into an opening in the bone plate, wherein the retaining arm includes a detent configured to receive and mate with a portion of the opening of the bone plate and a flange extending radially outward from a distal end of the retaining arm; and a cam screw disposed through the counterbored hole, wherein the cam screw includes a head and a shaft extending from the head, wherein the shaft includes a radially outwardly extending flange extending from a distal end of the shaft, a spring drill-guide configured to be coupled to a drill and comprising: a drill bit extending from a proximal end to a distal end, a compression element; and a sleeve coupled to a distal end of the compression element, wherein the drill bit extends through the compression element and the sleeve such that, in an initial state where the compression element is not compressed, only the distal end of the drill bit extends through the sleeve. 9. The stabilization system of claim 8 , wherein the compression element is a helical spring. 10. The stabilization system of claim 8 , wherein the targeting guide further comprises: a plurality of k-wire openings corresponding to a plurality of k-wire openings in the bone plate. 11. The stabilization system of claim 8 , wherein in the unlocked position, the radially outwardly extending flange of the cam screw is disposed adjacent the flange of the retaining arm, and wherein in the locked position, the radially outwardly extending flange of the cam screw extends in a substantially opposite direction as the flange of the retaining arm. 12. The stabilization system of claim 8 , wherein the targeting guide further comprises: a dowel pin extending through an opening formed in the targeting guide, wherein the opening extends transverse to the counterbored hole, and wherein the dowel pin extends above the cam screw to prevent the cam screw from backing out. 13. The stabilization system of claim 8 , wherein the body of the targeting guide further includes a neck portion extending between the upper portion and the lower portion. 14. The stabilization system of claim 8 , wherein the upper portion of the targeting guide is adjacent the lower portion of the targeting guide. 15. The stabilization system of claim 14 , wherein the body of the targeting guide does not surround k-wire holes in the bone plate.