Patent Number: 039379710
Section: claims

1. A method of making a focused shield for use in connection with a radiation therapy machine or the like, said method comprising the steps of: forming a shield blank having a planar top side and an opposite, rounded bottom side;  forming a shield blank holding fixture having a rounded shield blank supporting surface provided with a radius of curvature complementary to the curvature of the bottom side of said shield blank;  selectively placing on the top side of said shield blank an outline having a configuration corresponding to a predetermined area of a patient to be exposed to a field of radiation;  placing said fixture on a cutting table of a band saw or the like;  positioning said shield blank on said fixture with the rounded bottom side of said shield blank resting on said rounded surface of said fixture; and  cutting said shield blank along said outline with said saw or the like while maintaining the shield blank in contact with said rounded surface to provide a focused shield having a bevel-walled aperture corresponding to said predetermined area.  a focused shield blank having a planar top side and a rounded bottom side opposite said top side;  a shield blank holding fixture having a rounded shield blank supporting surface provided with a radius of curvature complementary to the curvature of the bottom side of said shield blank; and  means for placing at a predetermined location on the top side of said shield blank an outline representing a required boundary of a field of radiation and having a configuration corresponding to a predetermined area of a patient to be exposed to a field of radiation whereby a focused shield having a bevel-walled aperture with a transverse configuration corresponding to that of said predetermined area is provided when said shield blank is cut along said outline by a band saw or the like while maintaining the bottom side of said shield blank in contact with the rounded surface of said fixture.  a generally rectangular body having a planar top side and a rounded bottom side opposite said top side; and  an aperture extending through said body from said top side to said bottom side and having a transverse irregular configuration corresponding to that of a predetermined area of a patient to be exposed to a field of radiation,  said aperture being selectively located in said body and having beveled sidewalls for permitting those radiation rays in alignment with said aperture to enter the same and to pass therethrough unimpeded when said focused shield is operably inserted in a radiation therapy machine. 2. A method as claimed in claim 1, wherein said shield blank forming step includes shaping said bottom side to present a convexly rounded contour; and wherein the step of forming said shield blank holding fixture includes shaping said rounded surface to present a bowl-shaped concavity. 3. A method as claimed in claim 2, wherein said shield blank forming step includes premolding said shield blank in a rectangular shape having said planar top side and said convex bottom side. 4. A method as claimed in claim 1, wherein said step of placing said outline on said blank includes the step of drawing the desired radiation field boundary on paper or the like for placement on said shield blank. 5. A method as claimed in claim 4, wherein said step of placing said outline on said shield blank includes the step of indicating on said paper or the like the required location of the center of a radiation beam relative to said radiation field when the focused shield is properly inserted in a radiation therapy machine. 6. A method as claimed in claim 5, wherein said placement step further includes the step of positioning said paper or the like on said shield blank such that the indicated radiation beam center is superimposed over the center of the shield blank and is transversely centered relative to a radiation beam when said focused shield is inserted in a radiation therapy machine. 7. A method as claimed in claim 6; and the step of trimming the outer edges of said focused shield while the same is in said holding fixture to present a focused shield having beveled outer edges in angular alignment with the periphery of said radiation beam, said trimming step including reducing said focused shield to a size in which the perimeter of said top side encloses an area at least equal to that encompassed by the periphery of a radiation beam at the point the latter strikes said focused shield. 8. Apparatus for making a focused shield for use in connection with a radiation therapy machine or the like, said apparatus including: 9. Apparatus as claimed in claim 8, wherein said rounded bottom side has a convex contour, and wherein said rounded surface of said fixture presents a bowl-shaped concavity. 10. Apparatus as claimed in claim 8, wherein said outline placement means includes a piece of sheet material on which said outline is drawn, said outline displacement means further including means for retaining said sheet material on said top wall during the cutting of said aperture in said shield blank. 11. Apparatus as claimed in claim 10, wherein said sheet material has indicated thereon a marking representing the location of the center of a radiation beam when said focused shield is operably inserted in a radiation therapy machine, said outline being positioned on said sheet material at a predetermined location relative to said marking. 12. Apparatus as claimed in claim 11, wherein said sheet material is positioned on said top wall with said center marking on said sheet material superimposed over the center of said shield blank. 13. Apparatus as claimed in claim 12, wherein said sheet material is of a rectangular size having an area at least equal to that encompassed by the periphery of said radiation beam at the point the latter strikes said focused shield when the same is inserted in said therapy machine. 14. A focused shield for use in connection with a radiation therapy machine or the like, said focused shield comprising: 15. A focused shield as claimed in claim 14, wherein each aperture sidewall is in substantial parallelism with the path of travel of those radiation rays adjacent thereto. 16. A focused shield as claimed in claim 15, wherein said aperture sidewalls diverge as said bottom side is approached. 17. A focused shield as claimed in claim 14, wherein said body is of sufficient length and breadth to at least span the transverse width of a radiation beam at the point the latter strikes said focused shield when the same is operably inserted in said therapy machine.