Patent Number: 
Section: claims

1. A pre-patient collimator for shaping an x-ray beam in a computed tomography (CT) system, the pre-patient collimator assembly comprising:a base comprised of a first material, the first material having a first material density; andan insert mechanically coupled to the base and being comprised of a second material, the second material comprising a moldable material having a second material density greater than the first material density and that is sufficient to block x-ray energy;wherein the base comprises a plurality of structural features by which the insert is molded to the base, with the moldable material of the insert forming a connection with the plurality of structural features to mechanically couple the base and the insert. 2. The pre-patient collimator of claim 1 wherein the plurality of structural features of the base comprise:a plurality of undercuts formed in the base; anda plurality of holes formed through the base, the holes having counter bores formed thereon. 3. The pre-patient collimator of claim 2 wherein the insert comprises:a face having protrusions on opposing ends thereof, the protrusions configured to mate with the undercuts formed in the base; anda plurality of anchors extending outward from the face, the anchors configured to extend through the holes formed through the base. 4. The pre-patient collimator of claim 3 wherein each of the plurality of anchors further comprises a circular flange positioned at an end of the anchor distal from the face, each circular flange configured to mate with a respective counter bore of the base. 5. The pre-patient collimator of claim 1 wherein the base and the insert form a collimator blade, and wherein the pre-patient collimator comprises a pair of collimator blades having an aperture situated therebetween. 6. The pre-patient collimator of claim 5 wherein a position of at least one of the collimator blades is adjustable, such that a size and shape of the aperture is variable so as to shape an x-ray energy beam as it passes there through. 7. The pre-patient collimator of claim 1 wherein the first material comprises one of aluminum and/or steel. 8. The pre-patient collimator of claim 1 wherein the second material comprises tungsten impregnated plastic. 9. The pre-patient collimator of claim 1 wherein the collimator is free of adhesives or fasteners for mechanically coupling the insert to the base. 10. A method of manufacturing a pre-patient collimator for use in a computed tomography (CT) system, the method comprising:forming a base from a first material, the base being formed so as to have a plurality of geometrical features thereon; andmolding a second material onto the base to form an insert, the second material comprising a material having a material density greater than that of the first material and that is sufficient to block x-ray energy;wherein the second material is injection molded onto the base such that the second material forms a mechanical bond with the plurality of geometrical features to secure the insert to the base. 11. The method of claim 10 wherein forming the base comprises:providing a piece of metallic stock comprising one of aluminum and/or steel; andmachining the piece of metallic stock to form the base having the plurality of geometrical features. 12. The method of claim 10 wherein the plurality of geometrical features comprises a series of undercuts and a series of holes with counter bores. 13. The method of claim 12 wherein molding the second material onto the base comprises one of over-molding and injection molding the second material about and through the series of undercuts and series of holes with counter bores, respectively, to form the insert. 14. The method of claim 13 wherein forming the insert further comprises:forming an insert face having protrusions on opposing ends thereof, the protrusions configured to mate with the undercuts formed in the base; andforming a plurality of anchors extending outward from the insert face, the anchors configured to extend through the holes with counter bores formed through the base. 15. The method of claim 10 further wherein the base and the insert form a collimator blade, and wherein the method further comprises:providing a pair of collimator blades; andpositioning the pair of collimator blades relative to one another so as to define an aperture therebetween;wherein a position of at least of the pair of collimator blades is adjustable, such that a size and shape of the aperture is variable so as to shape an x-ray energy beam as it passes there through. 16. The method of claim 10 wherein the second material comprises tungsten impregnated plastic configured to block radiation from passing there through. 17. A computed tomography (CT) system comprising:a rotatable gantry having an opening to receive an object to be scanned;an x-ray projection source configured to project an x-ray beam toward the object;a collimator positioned between the x-ray projection source and the object configured to shape the x-ray beam, the collimator comprising a pair of blades;a detector array configured to detect x-ray energy passing through the object and generate a detector output responsive thereto;a data acquisition system (DAS) connected to the detector array and configured to receive the detector output; andan image reconstructor connected to the DAS and configured to reconstruct an image of the object from the detector output received by the DAS;wherein each blade of the collimator comprises:a metallic base formed of a first material and comprising a plurality of geometrical features thereon formed therein; andan insert mechanically coupled to the base, the insert being formed of a radiation blocking material having a material density greater than a material density of the first material;wherein the insert is mechanically coupled to the metallic base by way of the plurality of geometrical features, such that the blade is free of adhesives and fasteners for coupling the metallic base and the insert. 18. The CT system of claim 17 wherein the plurality of geometrical features comprises:a plurality of undercuts formed in the metallic base; anda plurality of holes with counter bores formed through the metallic base, the plurality of holes formed in an area of the metallic base configured to receive the insert. 19. The CT system of claim 18 wherein the insert comprises:a face having protrusions on opposing ends thereof, the protrusions configured to mate with the undercuts formed in the metallic base; anda plurality of anchors extending outward from the face, the anchors configured to extend through the holes with counter bores formed through the metallic base. 20. The CT system of claim 17 wherein the radiation blocking material comprises a moldable tungsten impregnated plastic. 21. The CT system of claim 17 wherein the pair of blades are positioned so as to define an aperture therebetween, and wherein a position of at least one of the blades is adjustable, such that a size and shape of the aperture is variable so as to shape the x-ray beam as it passes there through.