Intramedullary implant screw selection device

The invention is claimed as follows: 1. A method comprising: positioning a medical device relative to a bone of a patient, wherein the medical device includes: a base component constructed of a radiolucent material; and a set of markings on the base component, the set of markings including: (i) first diameter markings indicative of a first diameter of an implant screw, (ii) second diameter markings indicative of a second diameter of the implant screw, wherein the second diameter markings are between the first diameter markings on the base component, and (iii) a plurality of length markings indicative of a plurality of length options of the implant screw, wherein the set of markings are composed of a radiopaque material; exposing an area of the patient to radiation to generate a radiographic image, wherein the area of the patient includes the bone and the positioned medical device, and wherein the generated radiographic image includes a reproduction of the set of markings; and determining a desired diameter and a desired length of the implant screw based on the radiographic image. 2. The method of claim 1 , wherein positioning the medical device relative to the bone of the patient includes positioning the medical device external to a top side or a bottom side of a hand of the patient. 3. The method of claim 2 , wherein the radiographic image is a first radiographic image, and wherein the medical device is positioned relative to the top side of the hand of the patient when exposing the area of the patient to radiation to generate the first radiographic image, the method further comprising: positioning the medical device relative to the bottom side of the hand of the patient; and exposing the area of the patient with the medical device positioned relative to the bottom side of the hand to radiation to generate a second radiographic image that includes a reproduction of the set of markings, wherein determining the desired diameter and the desired length of the implant screw is based on both the first and second radiographic images. 4. The method of claim 1 , wherein the first diameter markings correspond to a major diameter of a thread of the implant screw, and the second diameter markings correspond to a minor diameter of the thread of the implant screw. 5. The method of claim 4 , wherein determining the desired diameter and the desired length of the implant screw based on the radiographic image includes: (i) comparing the reproduction of the first diameter markings to an image of an intramedullary canal of the bone on the radiographic image, (ii) comparing the reproduction of the second diameter markings to the image of the intramedullary canal, and (iii) comparing the reproduction of the plurality of length markings to the image of the intramedullary canal. 6. The method of claim 5 , wherein comparing the reproduction of the first diameter markings to the image of the intramedullary canal includes determining whether the first diameter markings extend beyond the intramedullary canal. 7. The method of claim 5 , wherein comparing the reproduction of the second diameter markings to the image of the intramedullary canal includes determining whether the second diameter markings extend beyond the intramedullary canal. 8. The method of claim 1 , wherein the radiographic image is a first radiographic image, wherein the medical device includes a plurality of sets of markings, each set of markings corresponding to a plurality of implant screws of differing diameters, and wherein positioning the medical device relative to the bone of the patient includes positioning a first set of markings of the plurality of sets of markings over the bone, the method further comprising: after exposing the area of the patient to radiation to generate the first radiographic image, repositioning the medical device relative to the bone of the patient such that a second set of markings different than the first set of markings is positioned over the bone; and exposing the area of the patient to radiation to generate a second radiographic image, wherein the second radiographic image includes a reproduction of the second set of markings. 9. The method of claim 8 , wherein the first diameter markings correspond to a major diameter of a thread of the implant screw, and the second diameter markings correspond to a minor diameter of the thread of the implant screw. 10. The method of claim 9 , wherein determining the desired diameter and the desired length of the implant screw comprises (i) comparing the reproduction of the first diameter markings of the first set of markings to an image of an intramedullary canal of the bone on the first radiographic image, (ii) comparing the reproduction of the second diameter markings of the first set of markings to the image of the intramedullary canal of the bone on the first radiographic image, and (iii) comparing the reproduction of the plurality of length markings of the first set of markings to the image of the intramedullary canal on the first radiographic image. 11. The method of claim 10 , wherein comparing the reproduction of the first diameter markings of the first set of markings comprises determining whether the reproduction of the first diameter markings of the first set of markings are within the intramedullary canal; and wherein comparing the reproduction of the second diameter markings of the first set of markings to the image of the intramedullary canal comprises determining whether the reproduction of the second diameter markings of the first set of markings extend beyond the intramedullary canal. 12. The method of claim 10 , wherein determining the desired diameter and the desired length of the implant screw further comprises (i) comparing the reproduction of the first diameter markings of the second set of markings to the image of the intramedullary canal of the bone on the second radiographic image, (ii) comparing the reproduction of the second diameter markings of the second set of markings to the image of the intramedullary canal on the second radiographic image, and (iii) comparing the reproduction of the plurality of length markings of the second set of markings to the image of the intramedullary canal on the second radiographic image. 13. The method of claim 12 further comprising selecting one of the plurality of implant screws with the desired diameter, wherein the desired diameter comprises the minor diameter of the thread being narrower than the intramedullary canal and the major diameter of the thread being wider than the intramedullary canal. 14. The method of claim 10 , wherein comparing the reproduction of the plurality of length markings of the first set of markings to the image of the intramedullary canal comprises comparing (i) a length from a distal end of the first set of markings to a line indicator length marking of the first set of markings to (ii) the length of the intramedullary canal. 15. The method of claim 1 , wherein the bone of the patient is selected from the group consisting of a metacarpal, a phalange, a metatarsal, a radius, an ulna, a fibula, a carpal, and a tarsal bone. 16. The method of claim 1 , wherein the medical device is positioned relative to a radius bone of the patient. 17. The method of claim 1 , wherein the first diameter markings correspond to a major diameter of a thread of the implant screw, and the second diameter markings correspond to a minor diameter of the thread of the implant screw, wherein determining the desired diameter and the desired length of the implant screw based on the radiographic image include