Staple instrument

What is claimed is: 1. A staple instrument comprising: a staple holder; a rotational drive shaft; a linkage operatively coupled to the staple holder and configured to expand the staple holder via an expansion motion imparted thereon; a converter coupling intermediate the rotational drive shaft and the linkage, the converter coupling configured to convert rotational motion of the rotational drive shaft into the expansion motion of the staple holder; and a housing that supports the linkage, converter coupling, and rotational drive shaft; the rotational drive shaft having a stop surface engaging a corresponding surface formed in the housing to inhibit proximal translation of the rotational drive shaft relative to the housing. 2. The staple instrument of claim 1 , further comprising an axial passage monolithically formed in the housing, the axial passage including the corresponding surface of the housing. 3. The staple instrument of claim 1 , wherein the stop surface comprises a beveled surface of the rotational drive shaft and the corresponding surface in the housing comprising an interior chamfer shaped to engage said beveled surface. 4. The staple instrument of claim 1 further comprising a support block coupled to the housing and having a bearing sized to receive a distal journal portion of the rotational drive shaft to maintain a radial position of the rotational drive shaft with respect to the housing, the converter coupling, and the support block. 5. The staple instrument of claim 4 , further comprising one or more pins that couple the support block to the housing. 6. The staple instrument of claim 1 , wherein a proximal end of the rotational drive shaft terminates in a handle. 7. The staple instrument of claim 6 , wherein the rotational drive shaft exits the housing at an aperture, wherein a dimension of a distal end of the handle is sized relative to the aperture to occlude distal translation of the rotational drive shaft relative to the housing. 8. The staple instrument of claim 7 , wherein the handle includes a proximal end having a generally flat profile. 9. The staple instrument of claim 1 , wherein the rotational drive shaft includes a threaded portion sized to engage a threaded bore of the converter coupling such that rotation of the threaded portion of the rotational drive shaft linearly translates the converter coupling relative to the rotational drive shaft, and wherein the linear translation of the converter coupling effectuates the expansion motion of the staple holder via the linkage. 10. The staple instrument of claim 9 , the linkage comprising an articulated linkage. 11. The staple instrument of claim 1 , wherein the rotational drive shaft is rotatable in a first direction and a second direction, the first direction being rotational motion that is converted into the expansion motion of the staple holder and the second direction being rotational motion that is converted into a contractive motion of the staple holder. 12. A kit comprising: one or more staples; and a staple instrument, the staple instrument comprising: a staple holder configured to interface with the one or more staples; a rotational drive shaft; a linkage operatively coupled to the staple holder and configured to expand the staple holder via an expansion motion imparted thereon, the expansion motion configured to transition the one or more staples from a resting configuration into an open configuration; a converter coupling intermediate the rotational drive shaft and the linkage, the converter coupling configured to convert rotational motion of the rotational drive shaft into the expansion motion of the staple holder; and a housing that supports the linkage, converter coupling, and rotational drive shaft; the rotational drive shaft having a stop surface engaging a corresponding surface formed in the housing to inhibit proximal translation of the rotational drive shaft relative to the housing. 13. The kit of claim 12 further comprising a container configured to hold the one or more staples and the staple instrument. 14. The kit of claim 12 wherein the one or more staples are formed from a superelastic metal material, and wherein the superelastic metal material induces the one or more staples to return to the resting configuration after being transitioned into the open configuration by the staple instrument. 15. The kit of claim 12 , wherein the rotational drive shaft includes a threaded portion sized to engage a threaded bore of the converter coupling such that rotation of the threaded portion of the rotational drive shaft linearly translates the converter coupling relative to the rotational drive shaft, and wherein the linear translation of the converter coupling effectuates the expansion motion of the staple holder via the linkage. 16. The kit of claim 12 , wherein the rotational drive shaft is rotatable in a first direction and a second direction, the first direction being rotational motion that is converted into the expansion motion of the staple holder and the second direction being rotational motion that is converted into a contractive motion of the staple holder. 17. The kit of claim 12 , wherein the staple instrument further comprises a support block coupled to the housing and having a bearing sized to receive a distal journal portion of the rotational drive shaft to maintain a radial position of the rotational drive shaft with respect to the housing, the converter coupling, and the support block. 18. The kit of claim 12 , further comprising one or more accessory instruments, the one or more accessory instruments including one or more of a drill guide, a drill bit, and locator pins. 19. A method for inserting a staple comprising: providing a staple instrument, the staple instrument comprising: a staple holder; a rotational drive shaft having a stop surface; a linkage operatively coupled to the staple holder; a converter coupling intermediate the rotational drive shaft and the linkage; and a housing that supports the linkage, converter coupling, and rotational drive shaft, the housing having a surface which corresponds to the stop surface of the rotational drive shaft; loading a staple into the staple holder; rotating the rotational drive shaft in a first direction to transition the staple from a resting configuration to an open configuration via an expansion motion. 20. The method of claim 19 further comprising: inserting legs of the staple into bone material; and releasing the staple from the staple instrument.