Spinal screw handling

What is claimed is: 1. A screw delivery instrument, comprising: a guide member having a shaft with an inner lumen extending therethrough between a proximal opening and a distal opening; and a screw magazine movably coupled to the proximal portion of the guide member and having a plurality of holes extending therethrough, each hole having a distal hole opening and an opposite proximal hole opening and being configured to retain a spinal screw such that the spinal screw can only be loaded through the distal hole opening, and the screw magazine being movable relative to the guide member such that each of the plurality of holes in the screw magazine can be aligned with the proximal opening in the shaft to allow a spinal screw retained within the hole to be delivered through the distal hole opening into the proximal opening and through the inner lumen of the shaft. 2. The instrument of claim 1 , further comprising a handle coupled to a proximal portion of the guide member. 3. The instrument of claim 1 , wherein the guide member has a support platform extending radially outward from a proximal end of the shaft, and wherein the screw magazine is movably mounted on the support platform. 4. The instrument of claim 3 , wherein the support platform includes a plurality of indentations spaced around a perimeter of a top surface of the support platform, and wherein the top surface faces a distal surface of the screw magazine. 5. The instrument of claim 4 , wherein the screw magazine includes a protrusion that is sized to be received within each of the plurality of indentations and configured to provide a tactile confirmation that one of the plurality of holes is aligned with the proximal opening. 6. The instrument of claim 1 , wherein the guide member has a support platform extending radially outward from a proximal end of the shaft, and wherein the screw magazine is movably mounted on the support platform, and a handle is mated to the support platform. 7. The instrument of claim 1 , wherein each of the plurality of holes in the screw magazine has a size that is configured to prevent passage of a spinal screw disposed therein through the proximal hole opening, and that is configured to allow passage of a spinal screw disposed therein through the distal hole opening. 8. The instrument of claim 7 , wherein the size of each of the plurality of holes in the screw magazine is the same. 9. The instrument of claim 7 , wherein the size of each of the plurality of holes in the screw magazine is different from one another. 10. The instrument of claim 7 , wherein each of the plurality of holes has a top portion having a first diameter and abutting the proximal hole opening, and a bottom portion having a second diameter and abutting the distal hole opening, and wherein the second diameter is larger than the first diameter. 11. The instrument of claim 1 , wherein the screw magazine has an elongate rectangular configuration with the plurality of holes being longitudinally aligned therealong. 12. The instrument of claim 1 , wherein the screw magazine is rotatable relative to the guide member. 13. The instrument of claim 1 , further comprising a release mechanism that is configured to be actuated to thereby permit a spinal screw to be delivered into the proximal opening. 14. The instrument of claim 13 , wherein the release mechanism includes a through-hole, and wherein, when actuated, the release mechanism is displaced such that the through-hole aligns with the proximal opening to allow a spinal screw to be delivered into the proximal opening. 15. The instrument of claim 13 , wherein, when actuated, the release mechanism moves linearly from a blocking position, in which the spinal screw is prevented from delivery into the proximal opening, to an unblocked position, in which a spinal screw is permitted to be delivered into the proximal opening. 16. The instrument of claim 13 , wherein, when actuated, the release mechanism rotates to permit delivery of a spinal screw into the proximal opening. 17. The instrument of claim 1 , wherein each of the plurality of holes includes a retaining ring disposed on an interior cylindrical surface thereof and positioned such that a spinal screw disposed in the hole is prevented from passing through the distal hole opening. 18. A screw delivery instrument, comprising: a support platform having a proximally-facing surface that includes at least one channel formed therein, a distally-facing surface positioned distal to and opposite the proximally-facing surface, and an opening extending through the support platform between the distally-facing surface and the proximally-facing surface; a guide member having a shaft with an inner lumen extending therethrough between a proximal end and an opposite, distal end, the proximal end positioned on the distally-facing surface of the support platform such that the inner lumen is in fluid communication with the opening of the support platform; and a screw magazine disposed on the proximally-facing surface of the support platform and having a plurality of holes extending therethrough, each hole being configured to retain a spinal screw, and the screw magazine having a protrusion configured to couple to the at least one channel of the support platform, the screw magazine being movable relative to the support platform such that each of the plurality of holes in the screw magazine can be aligned with the proximal opening in the shaft to allow a spinal screw retained within the hole to be delivered into the proximal opening and through the inner lumen of the shaft. 19. The instrument of claim 18 , wherein the screw magazine has an elongate rectangular configuration with the plurality of holes being longitudinally aligned therealong. 20. A screw delivery instrument, comprising: a guide member having a shaft with an inner lumen extending therethrough between a proximal opening and a distal opening; a screw magazine movably coupled to the proximal portion of the guide member and having a plurality of holes extending therethrough, each hole being configured to retain a spinal screw, and the screw magazine being movable relative to the guide member such that each of the plurality of holes in the screw magazine can be aligned with the proximal opening in the shaft to allow a spinal screw retained within the hole to be delivered into the proximal opening and through the inner lumen of the shaft; and a release mechanism coupled to the screw magazine and configured to slide between a first position in which the proximal opening is blocked by the release mechanism and a second position in which the spinal screw is permitted to be delivered into the proximal opening.