Scapholunate stabilization implant

The invention claimed is: 1. A scapholunate stabilization implant, including a central part, a first end part and a second end part, the first and second end parts being provided each with at least one through-hole for the passage of fastening screws, in which the central part and said first and second end parts are connected respectively by a first and a second torsion bar and in which the central part of the implant includes a first and a second central bar and lateral bars each of the lateral bars being connected, by a plurality of cross beams, respectively to the first and the second central bar and wherein the central part presents, in its middle, a transversal spacing separating the first and second central bars and delimited by the lateral bars. 2. The scapholunate stabilization implant according to claim 1 , characterized in that the beams each present a first end connected to one of the first and second central bars, a second end connected to one of the first and second lateral bars and a central portion, the beams having a decreasing section of their first and second end, in the direction of their central portion. 3. The scapholunate stabilization implant according to claim 1 , characterized in that the end parts present a shape having three non-aligned vertices and each end part of the scapholunate stabilization implant is provided with two through-holes for screws. 4. The scapholunate stabilization implant according to claim 1 , characterized in that the end parts have the shape of an asymmetric arrow having fins, and wherein the fins feature the through-holes for fastening screws, and their central rods which enable said ends to be connected to the central part of the implant constitute the torsion bars of said implant. 5. The scapholunate stabilization implant according to claim 1 , characterized in that the implant features, on at least one of its end parts a positioning lug or two diametrically opposed positioning lugs, said lug(s) being provided with a hole for the passage of a temporary stabilization pin, this or these positioning lug(s) being placed in proximity of the through-holes for the fastening screws. 6. The scapholunate stabilization implant according to claim 5 , characterized in that the positioning lugs are divisible so that when the implant has been fastened on the patient's bones by means of the fastening screws, these positioning lugs, now no longer useful, can be removed. 7. The scapholunate stabilization implant according to claim 1 , characterized in that it is made of a biocompatible material presenting the necessary robustness and elasticity. 8. The scapholunate stabilization implant according to claim 1 , characterized in that the central part of the implant is made of a titanium alloy, and the end parts of said implant are made of a polymer, the torsion bars connecting the central part to the end parts being thus executed in a titanium alloy encapsulated in polymer. 9. The scapholunate stabilization implant according to claim 8 , wherein the polymer is Polyetheretherketone (PEEK). 10. A scapholunate stabilization implant, including a central part, a first end part and a second end part, the first and second end parts being provided each with at least one through-hole for the passage of fastening screws, in which the central part and said first and second end parts are connected respectively by a first and a second torsion bar and in which the central part of the implant includes a first and a second central bar and lateral bars each of the lateral bars being connected, by a plurality of cross beams, respectively to the first and the second central bar, and wherein the end parts have the shape of an asymmetric arrow having fins, and wherein the fins feature the through-holes for fastening screws, and their central rods which enable said ends to be connected to the central part of the implant constitute the torsion bars of said implant. 11. The scapholunate stabilization implant according to claim 10 , characterized in that the beams each present a first end connected to one of the first and second central bars, a second end connected to one of the first and second lateral bars and a central portion, the beams having a decreasing section of their first and second end, in the direction of their central portion. 12. The scapholunate stabilization implant according to claim 10 , characterized in that the end parts present a shape having three non-aligned vertices and each end part of the scapholunate stabilization implant is provided with two through-holes for screws. 13. The scapholunate stabilization implant according to claim 10 , characterized in that the implant features, on at least one of its end parts a positioning lug or two diametrically opposed positioning lugs, said lug(s) being provided with a hole for the passage of a temporary stabilization pin, this or these positioning lug(s) being placed in proximity of the through-holes for the fastening screws. 14. The scapholunate stabilization implant according to claim 13 , characterized in that the positioning lugs are divisible so that when the implant has been fastened on the patient's bones by means of the fastening screws, these positioning lugs, now no longer useful, can be removed. 15. A scapholunate stabilization implant, including a central part, a first end part and a second end part, the first and second end parts being provided each with at least one through-hole for the passage of fastening screws, in which the central part and said first and second end parts are connected respectively by a first and a second torsion bar and in which the central part of the implant includes a first and a second central bar and lateral bars each of the lateral bars being connected, by a plurality of cross beams, respectively to the first and the second central bar, wherein the central part of the implant is made of a titanium alloy, and the end parts of said implant are made of a polymer, the torsion bars connecting the central part to the end parts being thus executed in a titanium alloy encapsulated in polymer. 16. The scapholunate stabilization implant according to claim 15 , characterized in that the beams each present a first end connected to one of the first and second central bars, a second end connected to one of the first and second lateral bars and a central portion, the beams having a decreasing section of their first and second end, in the direction of their central portion. 17. The scapholunate stabilization implant according to claim 15 , characterized in that the end parts present a shape having three non-aligned vertices and each end part of the scapholunate stabilization implant is provided with two through-holes for screws. 18. The scapholunate stabilization implant according to claim 15 , characterized in that the implant features, on at least one of its end parts a positioning lug or two diametrically opposed positioning lugs, said lug(s) being provided with a hole for the passage of a temporary stabilization pin, this or these positioning lug(s) being placed in proximity of the through-holes for the fastening screws. 19. The scapholunate stabilization implant according to claim 18 , characterized in that the positioning lugs are divisible so that when the implant has been fastened on the patient's bones by means of the fastening screws, these positioning lugs, now no longer useful, can be removed.