Patent Number: 
Section: claims

1. A radiation-shielding container for storing a syringe, the radiation-shielding container comprising:a body assembly for housing a portion of the syringe, the body assembly including a body shield formed of radiation shielding material, a body shell that defines a first cavity having an open end for receiving the body shield and defines a first chamber portion for receiving a portion of the syringe, wherein an inner wall of the body shell separates the first cavity and the first chamber portion, and a body plug secured to the body shell to cover the open end of the first cavity and retain the body shield within the first cavity; anda cap assembly for housing a portion of the syringe, the cap assembly including a cap shield formed of radiation shielding material, a cap shell that defines a second cavity having an open end for receiving the cap shield and defines a second chamber portion for receiving a portion of the syringe, wherein an inner wall of the cap shell separates the second cavity and the second chamber portion, and a cap plug secured to the cap shell to cover the open end of the second cavity and retain the cap shield within the second cavity,wherein the cap assembly is securable to the body assembly such that the first and second chamber portions define a chamber for storing the syringe. 2. The radiation-shielding container of claim 1 wherein the body shield is formed of lead. 3. The radiation-shielding container of claim 1 wherein the cap shield is formed of lead. 4. The radiation-shielding container of claim 1, and further comprising:a cap-securing structure including at least one radially outwardly and circumferentially extending rib defined by the shell of the body assembly; anda body-securing structure including at least one radially inwardly extending projection defined by the shell of the cap assembly for engagement with the cap-securing structure of the body assembly. 5. The radiation-shielding container of claim 1 wherein an inner surface of the body shield is positioned adjacent the inner wall of the body shell and extends substantially the length of the inner wall. 6. The radiation-shielding container of claim 5 wherein there is a clearance fit between the inner surface of the body shield and the inner wall of the body shell. 7. The radiation-shielding container of claim 1 wherein an inner surface of the cap shield is positioned adjacent the inner wall of the cap shell and extends substantially the length of the inner wall. 8. The radiation-shielding container of claim 7 wherein there is a clearance fit between the inner surface of the cap shield and the inner wall of the cap shell. 9. The radiation-shielding container of claim 1 wherein the body plug presses against the body shield to prevent movement of the body shield within the first cavity. 10. The radiation-shielding container of claim 1 wherein the cap plug presses against the cap shield to prevent movement of the cap shield within the second cavity. 11. The radiation-shielding container of claim 1, and further comprising a bio-liner received by the first chamber portion of the body assembly. 12. The radiation-shielding container of claim 1 wherein an open end of the cap shield substantially surrounds an open end of the body shield. 13. A radiation-shielding container for storing a syringe, the radiation-shielding container comprising:a body assembly for housing a portion of the syringe, the body assembly includinga body shell having an outer wall, an inner wall spaced apart from the outer wall, an end wall connecting the outer wall to the inner wall, and an open end, wherein the inner wall defines a first chamber portion for receiving the syringe, and the outer wall, the inner wall and the end wall define a first cavity,a body shield formed of radiation shielding material and having a substantially cylindrical shape, the body shield disposed within the first cavity of the body shell wherein an inner surface of the body shield lies adjacent the inner wall of the body shell, anda body plug configured and adapted for receipt by the open end of the body outer shell to cover the open end, wherein the body plug retains the body shield within the first cavity; anda cap assembly for housing a portion of the syringe, wherein the cap assembly is securable to the body assembly, the cap assembly includinga cap shell having an outer wall, an inner wall spaced apart from the outer wall, an end wall connecting the outer wall to the inner wall, and an open end, wherein the inner wall defines a second chamber portion for receiving the syringe, and the outer wall, the inner wall and the end wall define a second cavity,a cap shield formed of radiation shielding material and having a substantially cylindrical shape, the cap shield disposed within the second cavity of the cap shell wherein an inner surface of the cap shield lies adjacent the inner wall of the cap shell, anda cap plug configured and adapted for receipt by the open end of the cap shell to cover the open end, wherein the cap plug retains the shield within the second cavity. 14. The radiation-shielding container of claim 13 wherein the body shield is formed of lead. 15. The radiation-shielding container of claim 13 wherein the cap shield is formed of lead. 16. The radiation-shielding container of claim 13, and further comprising:a cap-securing structure including at least one radially outwardly and circumferentially extending rib defined by the shell of the body assembly; anda body-securing structure including at least one radially inwardly extending projection defined by the shell of the cap assembly for engagement with the cap-securing structure of the body assembly. 17. The radiation-shielding container of claim 13 wherein the outer wall of the body shell includes an annular groove, the radiation-shielding container further comprising a resilient O-ring positioned in the annular groove to provide a seal between the body and cap shells. 18. The radiation-shielding container of claim 13 wherein there is a clearance fit between the inner surface of the body shield and the inner wall of the body shell. 19. The radiation-shielding container of claim 13 wherein there is a clearance fit between the inner surface of the cap shield and the inner wall of the cap shell. 20. The radiation-shielding container of claim 13 wherein the body plug presses against the body shield to prevent movement of the body shield within the first cavity. 21. The radiation-shielding container of claim 13 wherein the cap plug presses against the cap shield to prevent movement of the cap shield within the second cavity. 22. The radiation-shielding container of claim 13 wherein the body plug is secured to the body shell. 23. The radiation-shielding container of claim 13 wherein the cap plug is secured to the cap shell. 24. The radiation-shielding container of claim 13, and further comprising a bio-liner received by the first chamber portion of the body shell. 25. The radiation-shielding container of claim 13 wherein an open end of the cap shield substantially surrounds an open end of the body shield. 26. A radiation-shielding container for storing a syringe, the radiation-shielding container comprising:a first assembly for housing a portion of the syringe, the first assembly including a shield formed of radiation shielding material, a shell that defines a first cavity having an open end for receiving the shield and defines a first chamber portion for receiving a portion of the syringe, wherein an inner wall of the shell separates the first cavity and the first chamber portion, and a plug secured to the shell to cover the open end of the first cavity and retain the shield within the first cavity; anda second assembly for housing a portion of the syringe, the second assembly including a shield formed of radiation shielding material and defining a second chamber portion,wherein the first and second assemblies are securable together such that the first and second chamber portions define a chamber for storing the syringe. 27. The radiation-shielding container of claim 26 wherein the second assembly comprises:a shell that defines a cavity having an open end for receiving the shield of the second assembly and defines the second chamber portion for receiving a portion of the syringe, wherein an inner wall of the shell separates the cavity and the second chamber portion; anda plug secured to the shell to cover the open end of the cavity and retain the shield within the cavity. 28. The radiation-shielding container of claim 26 wherein the second assembly includes a protective coating that substantially surrounds and encases the shield. 29. The radiation-shielding container of claim 28 wherein an open portion is formed in the protective coating, the second assembly including a plug fitted within the open portion to cover the shield. 30. A method of forming a radiation-shielding container for a syringe, the radiation-shielding container including a first shell and a second shell, each shell having an outer wall, an inner wall spaced apart from the outer wall, an end wall connecting the outer wall to the inner wall, and an open end, wherein the inner wall defines a chamber portion, and the outer wall, the inner wall and the end wall define a cavity, the method comprising:placing a first shield in the cavity of the first shell, the first shield formed of radiation shielding material, wherein an inner surface of the first shield is positioned adjacent the inner wall of the first shell;covering the open end of the first shell to retain the first shield within the cavity of the first shell;placing a second shield in the cavity of the second shell, the second shield formed of radiation shielding material, wherein an inner surface of the second shield is positioned adjacent the inner wall of the second shell;covering the open end of the second shell to retain the second shield within the cavity of the second shell;placing a syringe within the chamber portion of the first shell; andsecuring the second shell to the first shell wherein the syringe is confined within the chamber portions of the first and second shells. 31. The method of claim 30 wherein covering the open end of the first shell comprises securing a plug to the outer wall of the first shell. 32. The method of claim 31 wherein the plug prevents movement of the first shield within the first shell. 33. The method of claim 30 wherein covering the open end of the second shell comprises securing a plug to the outer wall of the second shell. 34. The method of claim 33 wherein the plug prevents movement of the second shield within the second shell.