Sacroiliac screw

What is claimed is: 1. An improved joint fusion screw for transiliac fixation comprising: a screw head; an elongate hollow shaft, the hollow shaft having an externally threaded end portion having one or more threads extending toward a tip end and a non-externally threaded shank portion having a plurality of window openings; and wherein adjacent or near the tip end has one bone cutting flute, the one bone cutting flute has a cutting edge formed from a start of one thread on a circumferential exterior of the threaded tip to cut bone and direct the cut bone internally into a bone receiving opening positioned in front of the start of one thread above the tip end in the hollow shaft directly in front of the one cutting flute wherein the cutting edge lies at the start of the thread extending radially above the bone receiving opening at least partially overhanging the opening configured to receive bone fragments. 2. The improved joint fusion screw for transiliac fixation of claim 1 wherein the bone cutting flute has a ramp extending from the cutting edge for directing bone toward the opening and inside the hollow shaft. 3. The improved joint fusion screw for transiliac fixation of claim 2 wherein cut bone fragments are directed internal along the ramp upon implantation of the screw into the hollow shaft. 4. The improved joint fusion screw for transiliac fixation of claim 1 wherein the hollow shaft has a bone chamber for receiving the cut bone fragments, the bone chamber extending to at least the window openings of the shank portion. 5. The improved joint fusion screw for transiliac fixation of claim 4 wherein autograft cut bone fragments are directed to the window openings to enhance new bone growth and fusion of the fusion screw. 6. The improved joint fusion screw for transiliac fixation of claim 5 wherein the cutting edge form spiral cut autograft bone upon screw implantation which are bent and broken into bone fragments as directed into the bone receiving opening. 7. The improved joint fusion screw for transiliac fixation of claim 6 wherein each of the formed spiral cut autograft bone fragments increases osteoconductivity. 8. The improved joint fusion screw for transiliac fixation of claim 1 wherein the window openings of the shank portion are elongated slots, the slots having two longitudinal side edges, the longitudinal side edge in the direction of screw loosening is formed with a sharp bone cutting edge to facilitate screw removal. 9. The improved joint fusion screw for transiliac fixation of claim 1 wherein the screw has an enlarged flat head with a polyaxial bottom affixed or integral to an end of the shank and the improved joint fusion screw for transiliac fixation further has a washer with a concavity in the shape of a polyaxial bowl. 10. The improved joint fusion screw for transiliac fixation of claim 1 wherein the end of the shank portion has internal or female threads for receiving a threaded driver cap. 11. The improved joint fusion screw for transiliac fixation of claim 10 wherein the threaded driver cap has a cannulated opening or aperture for passing a guide wire and a torquing tool receiving cavity to thread the screw into the bone and is affixed into the threaded end of the shank. 12. The improved joint fusion screw for transiliac fixation of claim 1 wherein a driver cap is removably attached to allow bone packing material to be packed into the hollow shaft after insertion into the bone. 13. An improved joint fusion screw for transiliac fixation comprising: a screw head; an elongate hollow shaft, the hollow shaft having an externally threaded end portion having one or more threads extending toward a tip end and a non-externally threaded shank portion having a plurality of window openings; and wherein adjacent or near the tip end has at least two bone cutting flutes, each of the bone cutting flutes has a cutting edge formed from a start of one thread on a circumferential exterior of the threaded tip to cut bone and direct the cut bone internally into a bone receiving opening positioned in front of the start of one thread above the tip end in the hollow shaft directly in front of one of the cutting flutes wherein the cutting edge lies at the start of the thread extending radially above the bone receiving opening at least partially overhanging the opening configured to receive bone fragments, wherein the screw has two thread starts wherein the at least two cutting flutes are diametrically opposed, one at each thread start. 14. The improved joint fusion screw for transiliac fixation of claim 1 wherein the at least two cutting flutes extend starting near the tip end and direct bone fragments through two bone receiving openings. 15. The improved joint fusion screw for transiliac fixation of claim 1 wherein the tip end has an annular ledge extending across the hollow shaft, the ledge having an aperture for receiving a guide wire. 16. The improved joint fusion screw for transiliac fixation of claim 15 wherein the aperture is coaxial with an axis of the screw. 17. The improved joint fusion screw for transiliac fixation of claim 1 wherein upon tightening the screw, the threads in the threaded end portion engage the sacrum bone and the screw head pulls the ilium bone towards the sacrum. 18. The improved joint fusion screw for transiliac fixation of claim 17 wherein the hollow shaft has a bone chamber for receiving bone fragments, the bone chamber extending to at least the openings of the shank portion. 19. The improved joint fusion screw for transiliac fixation of claim 18 wherein autograft cut bone fragments are directed to the openings to enhance new bone growth and fusion of the fusion screw. 20. The improved joint fusion screw for transiliac fixation of claim 17 wherein the openings of the shank portion are elongated slots, the slots having two longitudinal side edges, the longitudinal side edge in the direction of screw loosening is formed with a sharp bone cutting edge to facilitate removal. 21. The improved joint fusion screw for transiliac fixation of claim 17 wherein the head of the screw is an enlarged flat head affixed or integral to an end of the shank. 22. The improved joint fusion screw for transiliac fixation of claim 17 wherein the end of the shank portion has internal or female threads for receiving a threaded driver cap. 23. The improved joint fusion screw for transiliac fixation of claim 22 wherein the threaded driver cap has a cannulated opening or aperture for passing a guide wire and a torquing tool receiving cavity to thread the screw into the bone and is affixed into the threaded end of the shank. 24. The improved joint fusion screw for transiliac fixation of claim 17 wherein a driver cap is removably attached to allow bone packing material to be packed into the hollow shaft after insertion into the bone. 25. The improved joint fusion screw for transiliac fixation of claim 17 wherein the tip end has at least two cutting flutes diametrically opposed to the other. 26. The improved joint fusion screw for transiliac fixation of claim 25 wherein the at least two cutting flutes extend starting near the tip end longitudinally at two or more thread starts and wherein the threads are tapered and have an increasing diameter towards the smooth portion of the shank.