Patent Number: 
Section: claims

1. An elution tool for a radiopharmaceutical elution system comprising:an elution tool body having a top, an opposing bottom, an opening in the top, a vial chamber extending from the opening in the top toward the bottom that is sized and shaped for receiving an elution vial therein through the opening in the top, and an access opening extending through the bottom to the vial chamber, the access opening being aligned with a septum of the elution vial when the elution vial is received in the vial chamber, wherein the elution tool body comprises at least one of depleted uranium, tungsten, tungsten impregnated plastic, and lead;an elution tool lid secured to the elution tool body by a hinged connection adjacent the top of the elution tool body, the elution tool lid being rotatable at the hinged connection and relative to the elution tool body between a occluded position, in which the elution tool lid occludes the opening in the top of the elution tool body, and an exposed position, in which the elution tool lid does not occlude the opening in the top of the elution tool body to allow the elution vial to be inserted into and removed from the vial chamber, the hinged connection configured to allow linear, transverse movement of the lid relative to the body when the lid is in the occluded position, wherein the lid comprises at least one of depleted uranium, tungsten, tungsten impregnated plastic, and lead; anda latching mechanism for selectively and releasably locking the lid in the occluded position. 2. The elution tool set forth in claim 1, wherein the hinged connection comprises a slot defined in one of the body and the lid, and a hinge pin on the other of the body and the lid and received in the slot. 3. The elution tool set forth in claim 1, wherein the latching mechanism comprises a latching member on the lid, and a latching groove defined in the body, wherein the latching member is configured to be slidably receivable and removable from the latching groove by moving the lid transversely relative to the body. 4. The elution tool set forth in claim 3, wherein the latching mechanism further comprises a detent which releasably engages the latching member as the latching member enters the latching groove to inhibit inadvertent removal of the latching member from the latching groove. 5. The elution tool set forth in claim 1, wherein the hinged connection and the latching mechanism are opposed to one another relative to the lid. 6. The elution tool set forth in claim 1, wherein the body includes a seat on which the lid seats when the lid is in the occluded position, wherein the seat has an oblong periphery with a major axis, and the lid has a generally circular periphery. 7. The elution tool set forth in claim 1, further comprising a dispensing cap removably secured to the bottom of the body of the elution tool, the dispensing cap comprising a body having an access opening that is aligned with the access opening of the body of the elution tool when the dispensing cap is secured to the body of the elution tool, and a dispensing lid rotatably secured to the body of the dispensing cap for selectively opening and closing the access opening, wherein the dispensing lid comprises at least one of depleted uranium, tungsten, tungsten impregnated plastic. 8. The elution tool set forth in claim 7, wherein the dispensing cap further comprises at least one magnetic coupler for releasably securing the dispensing cap to the body of the elution tool. 9. The elution tool set forth in claim 8, wherein the dispensing cap defines a socket for receiving the bottom of the body of the elution tool, wherein the at least one magnetic coupler at least partially surrounds the socket. 10. The elution tool set forth in claim 9, wherein the body of the elution tool defines an annular coupler surface that is magnetically attracted to the at least one magnetic coupler of the dispensing cap. 11. The elution tool set forth in claim 10, wherein the dispensing cap further comprises a locking pin that is receivable in a locking cavity defined in the annular coupler surface of the body of the elution tool to inhibit rotation of the dispensing cap about the bottom of the body of the elution tool. 12. The elution tool set forth in claim 1, further comprising a storage cap removably securable to the bottom of the elution tool body, wherein the storage cap comprises a body and a radiation shield secured to the body, wherein the radiation shield is aligned with the access opening in the elution tool body when the storage cap is secured to the elution tool body, the radiation shield comprising at least one of depleted uranium, tungsten, tungsten impregnated plastic, and lead. 13. The elution tool set forth in claim 1, wherein the elution body is sized and shaped to be held in one hand of a user. 14. An elution tool for a radiopharmaceutical elution system comprising:an elution tool body configured to be held in one hand of a user, the elution tool body having a top, an opposing bottom, an opening in the top, a vial chamber extending from the opening in the top toward the bottom which is sized and shaped for receiving an elution vial therein through the opening in the top, and an access opening extending through the bottom to the vial chamber, the access opening being aligned with a septum of the elution vial when the elution vial is received in the vial chamber; anda dispensing cap removably securable to the bottom of the elution tool body, the dispensing cap comprising a dispensing cap body having a dispensing access opening that is aligned with the access opening of the elution tool body when the dispensing cap is secured to the elution tool body, and a dispensing lid rotatably secured to the dispensing cap body, the dispensing lid configured to selectively occlude and expose the dispensing access opening by rotating the dispensing lid across the dispensing access opening, wherein the elution tool body and the dispensing lid comprise at least one of depleted uranium, tungsten, tungsten impregnated plastic, and lead. 15. The elution tool set forth in claim 14, wherein the dispensing cap further comprises at least one magnetic coupler for releasable securing the dispensing cap to the body of the elution tool. 16. The elution tool set forth in claim 15, wherein the dispensing cap defines a socket for receiving the bottom of the body of the elution tool, wherein the at least one magnetic coupler at least partially surround the socket. 17. The elution tool set forth in claim 16, wherein the body of the elution tool defines an annular coupler surface that is magnetically attracted to the at least one magnetic coupler of the dispensing cap. 18. The elution tool set forth in claim 17, wherein the dispensing cap further comprises a locking pin that is receivable in a locking cavity defined in the annular coupler surface of the body of the elution tool to inhibit rotation of the dispensing cap about the bottom of the body of the elution tool. 19. The elution tool set forth in claim 14, wherein the dispensing cap body has a density less than the density of the dispensing lid. 20. The elution tool set forth in claim 19, wherein the elution body is sized and shaped to be held in one hand of a user. 21. The elution tool set forth in claim 1, wherein the hinged connection comprises a slot defined in one of the body and the lid, and a hinge pin on the other of the body and the lid and received in the slot, the slot being elongate in a direction transverse to an axis about which the lid is rotatable.