Patent Number: 
Section: claims

1. An assembly comprising:a calibration source which includes a radionuclide; andan adapter connected to the calibration source, the adapter comprising:a first mounting mechanism adapted for mounting the adapter to a first mounting bracket of a first imaging device whereby the calibration source is positioned for calibrating the first imaging device; anda second mounting mechanism adapted for mounting the adapter to a second mounting bracket of a second imaging device, the second mounting bracket being different from the first mounting bracket, whereby the calibration source is positioned for calibrating the second imaging device. 2. The assembly of claim 1, wherein the first mounting mechanism comprises a slot. 3. The assembly of claim 2, wherein the adapter comprises a circular plate and the slot is defined in a peripheral surface of the plate. 4. The assembly of claim 2, wherein the slot defines an arc of a circle. 5. The assembly of claim 1, wherein the second mounting mechanism comprises a stud. 6. The assembly of claim 5, wherein the second mounting mechanism comprises a plurality of studs. 7. The assembly of claim 6, wherein the adapter comprises a circular plate and the studs extend from a planar first surface of the plate. 8. The assembly of claim 1, wherein the adapter comprises a plate with a threaded shaft extending therefrom and the calibration source includes a bore with threads complementary to the shaft for threadably connecting the calibration source to the adapter. 9. The assembly of claim 8, wherein the plate includes the first and second mounting mechanisms. 10. The assembly of claim 9, wherein the first mounting mechanism includes an arcuate slot which extends at least partially around a periphery of the plate. 11. The assembly of claim 10, wherein the arcuate slot which extends around a periphery of the plate to subtend an angle of at least 45°, or at least 90°, or at least 120° or at least 160°. 12. The assembly of claim 8, wherein the plate is circular. 13. The assembly of claim 1, wherein adapter includes a plate including first and second opposed planar surfaces and a peripheral surface which connects the planar surfaces, a threaded shaft extending from a center of the first surface of the plate which threadably connects the adapter to the calibration source;the first connection mechanism includes two studs extending from the second surface of the plate; andthe second connection member includes an arcuate slot defined in the peripheral surface which extends around at least a portion of the peripheral surface. 14. The assembly of claim 1, wherein the first mounting mechanism adapted for mounting the adapter to the first type of mounting bracket is not configured for mounting the calibration source in the second imaging device for positioning the calibration source for calibrating the second imaging device and the second mounting mechanism adapted for mounting the adapter to the second type of mounting bracket is not configured for mounting the calibration source in the first imaging device for positioning the calibration source for calibrating the first imaging device. 15. The assembly of claim 1, wherein the radionuclide includes germanium 68 or sodium 22 with a fluorine 18 equivalent value. 16. A universal mounting adapter for mounting an associated calibration source in associated first and second imaging devices, comprising:a plate including first and second opposed planar surfaces and a peripheral surface which connects the planar surfaces;a threaded shaft extending from a center of the first surface of the plate;two studs extending from the second surface of the plate; andan arcuate slot defined in the peripheral surface which extends around at least a portion of the peripheral surface, the arcuate slot having an inner radius spaced from the peripheral surface by a uniform, radial width, centers of the studs lying on the inner radius. 17. An assembly comprising a universal mounting adapter and a calibration source, the calibration source comprising a cylindrical container which holds a radionuclide, the universal mounting adapter comprising:a plate including first and second opposed planar surfaces and a peripheral surface which connects the planar surfaces;a threaded shaft extending from a center of the first surface of the plate;two studs extending from the second surface of the plate; andan arcuate slot defined in the peripheral surface which extends around at least a portion of the peripheral surface,the container having an end wall which defines a threaded bore which receives the threaded shaft therein. 18. The assembly of claim 17, wherein the studs and shaft are collinear. 19. A method for calibrating two imaging devices, the first imaging device including a first mounting bracket and the second imaging device including a second mounting bracket different from the first mounting bracket, the method comprising:providing a calibration source which includes a radionuclide;mounting an adapter to the calibration source, the adapter comprising a first mounting mechanism adapted for mounting the adapter to the first mounting bracket and a second mounting mechanism adapted for mounting the adapter to the second mounting bracket;mounting the adapter to the first mounting bracket of the first imaging device using the first mounting mechanism but not the second mounting mechanism, whereby the calibration source is positioned for calibrating the first imaging device;thereafter, mounting the adapter to the second mounting bracket of the second imaging device using the second mounting mechanism but not the first mounting mechanism, whereby the calibration source is positioned for calibrating the second imaging device. 20. The method of claim 19, wherein the radionuclide comprises Ge-68 or Na-22 with an F-18 value that is traceable to the National Institute of Standards. 21. The method of claim 19, wherein the mounting the adapter to the first mounting bracket includes engaging the adapter with the first mounting bracket without the use of tools and the mounting of the adapter to the second mounting bracket includes disengaging the adapter from the first mounting bracket without the use of tools and engaging the adapter with the second mounting bracket without the use of tools. 22. A method of making an assembly for calibrating two imaging devices, the first imaging device including a first mounting bracket and the second imaging device including a second mounting bracket different from the first mounting bracket, the method comprising:providing a calibration source which includes a container which holds a radionuclide, the container including a threaded bore in an end wall of the container; andmounting an adapter to the calibration source, the adapter comprising a first mounting mechanism adapted for mounting the adapter to the first mounting bracket and a second mounting mechanism adapted for mounting the adapter to the second mounting bracket and a threaded shaft which is received within the threaded bore.