Coplana X-ray guided aiming arm for locking of intramedullary nails

What is claimed is: 1. An aiming device for determining a location and an orientation of a transverse hole in an implanted intramedullary nail, comprising: an aiming arm formed of a radiolucent material and having a transverse hole extending therethrough between first and second surfaces thereof, the first surface including a first radiopaque marker and the second surface including a second radiopaque marker, the first and second radiopaque markers positioned along the first and second surfaces, respectively, to symmetrically overlay one another when viewed via an imaging device having an imaging beam coplanar with a central axis of the transverse hole of the aiming arm, wherein the first and second radiopaque markers that asymmetrically overlay one another are configured to indicate a direction and an amount by which the aiming arm must be rotated to align the imaging beam with the plane of the central axis of the transverse hole of the aiming arm, a first end of the aiming arm being configured to attach to a proximal end of an intramedullary nail; and an adjusting knob on the aiming arm configured to rotatably adjust the aiming arm relative to intramedullary nail to which it is coupled. 2. The aiming device of claim 1 , wherein the aiming arm is configured to rotate about an axis transverse to a longitudinal axis of the aiming arm. 3. The aiming device of claim 1 , wherein the first radiopaque marker includes a plurality of circles. 4. The aiming device of claim 3 , wherein the second radiopaque marker includes a plurality of lines such that the plurality of circles being disposed above the plurality of lines is configured to indicate that the aiming arm must be rotated down. 5. The aiming device of claim 4 , wherein the plurality of circles being disposed below the plurality of lines is configured to indicate that the aiming arm must be rotated up. 6. The aiming device of claim 1 , wherein the second radiopaque marker includes a plurality of lines. 7. The aiming device of claim 1 , wherein the first radiopaque marker is longitudinally aligned with a plane including the transverse hole. 8. The aiming device of claim 1 , wherein a proximal portion of the aiming aim remains stationary while a distal portion thereof is mobile, the distal portion of the aiming arm being positionable via manipulation of the adjusting knob. 9. The aiming device of claim 1 , wherein the second surface includes scale markers comprising a plurality of gradations, each gradation representing 2 degrees of rotation such that when the first radiopaque marker is aligned with one of the plurality of gradations, the amount the aiming arm must be rotated can be determined. 10. An aiming device for determining a location and orientation of a transverse hole in an implanted intramedullary nail, comprising: an aiming arm formed of a radiolucent material and having an insert removably positioned therewithin, the insert having a transverse hole extending therethrough from a first surface of the aiming arm to a second surface thereof, the first surface including a first radiopaque marker and the second surface including a second radiopaque marker, the first and second radiopaque markers positioned along the first and second surfaces, respectively, to symmetrically overlay one another when viewed via an imaging device having an imaging beam coplanar with a central axis of the transverse hole of the aiming arm, wherein the first and second radiopaque markers that asymmetrically overlay one another are configured to indicate a direction and an amount by which the aiming arm must be rotated to align the imaging beam with the plane of the central axis of the transverse hole of the aiming arm, a first end of the aiming arm including a structure for attachment to a proximal end of an intramedullary nail, wherein the transverse hole of the insert is offset relative to a hole extending through the intramedullary nail, the insert being configured to be positioned within the aiming arm in at least two different orientations to aid in alignment of the transverse hole with the hole extending through the intramedullary nail. 11. The aiming device of claim 10 , wherein the first radiopaque marker includes a plurality of circles. 12. The aiming device of claim 10 , wherein the second radiopaque marker includes a plurality of lines. 13. The aiming device of claim 10 , wherein the first radiopaque marker is longitudinally aligned with a plane including the transverse hole of the insert. 14. The aiming device of claim 10 , wherein a portion of at least one of the first and second radiopaque markers extends along the insert.