IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0409829
(2003-04-09)
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발명자
/ 주소 |
- Horwitz,E. Philip
- Bond,Andrew H.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
3 인용 특허 :
32 |
초록
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A multicolumn selectivity inversion generator separation method has been developed in which a desired daughter radionuclide is selectively extracted from a solution of the parent and daughter radionuclides by a primary separation column, stripped, and passed through a second guard column that retain
A multicolumn selectivity inversion generator separation method has been developed in which a desired daughter radionuclide is selectively extracted from a solution of the parent and daughter radionuclides by a primary separation column, stripped, and passed through a second guard column that retains any parent or other daughter impurities, while the desired daughter elutes. This separation method minimizes the effects of radiation damage to the separation material and permits the reliable production of radionuclides of high chemical and radionuclidic purity for use in diagnostic or therapeutic nuclear medicine.
대표청구항
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What is claimed: 1. A method for producing a solution of desired daughter radionuclide that is substantially free of impurities comprising the steps of: (a) contacting an aqueous parent-daughter solution containing a desired daughter radionuclide with a first separation medium having a high affinit
What is claimed: 1. A method for producing a solution of desired daughter radionuclide that is substantially free of impurities comprising the steps of: (a) contacting an aqueous parent-daughter solution containing a desired daughter radionuclide with a first separation medium having a high affinity for the desired daughter radionuclide and a low affinity for the parent and other daughter radionuclides, said desired daughter and parent radionuclides having different (i) ionic charges, (ii) charge densities or (iii) both as they are present in said solution, and maintaining that contact for a time period sufficient for said desired daughter radionuclide to be bound by the first separation medium to form desired daughter-laden separation medium and a desired daughter-depleted parent-daughter solution; (b) removing the desired daughter-depleted parent daughter solution from the separation medium; (c) stripping the desired daughter radionuclide from the desired daughter-laden separation medium to form a solution of desired daughter radionuclide; (e) contacting the solution of desired daughter radionuclide with a second separation medium having a high affinity for the parent radionuclide and a low affinity for said desired daughter radionuclide, and maintaining that contact for a time period sufficient for said parent radionuclide to be bound by the second separation medium to form a solution of substantially impurity-tree desired daughter radionuclide. 2. The method according to claim 1 wherein said desired daughter and parent radionuclides have different ionic charges. 3. The method according to claim 1 wherein said desired daughter and parent radionuclides have different charge densities. 4. The method according to claim 1 wherein said desired daughter and parent radionuclides have both different ionic charges and charge densities. 5. The method according to claim 1 wherein the decontamination factor of the desired daughter radionuclide from the parent radionuclide impurities of said first separation medium under the conditions of contact is greater than or equal to 102. 6. The method according to claim 1 wherein the decontamination factor of the desired daughter radionuclide from the parent radionuclide impurities of said second separation medium under the conditions of contact is greater than or equal to 102. 7. A method for producing a solution of desired daughter radionuclide that is substantially free of impurities comprising the steps of: (a) providing an aqueous parent-daughter radionuclide solution containing a desired daughter radionuclide; (b) contacting the parent-daughter solution with a first separation medium having a high affinity for the desired daughter radionuclide and a low affinity for the parent and other daughter radionuclides such that the decontamination factor of the desired daughter radionuclide from the parent radionuclide impurities of said first separation medium under the conditions of contact is greater than or equal to 102, said desired daughter and parent radionuclides having different (i) ionic charges, (ii) charge densities or (iii) both as they are present in said solution, and maintaining that contact for a time period sufficient for said desired daughter radionuclide to be bound by the first separation medium to form desired daughter-laden separation medium and a desired daughter-depleted parent-daughter solution; (c) removing the desired daughter-depleted parent daughter solution from the separation medium; (d) stripping the desired daughter radionuclide from the desired daughter-laden separation medium to form a solution of desired daughter radionuclide; (e) contacting the solution of desired daughter radionuclide with a second separation medium having a high affinity for the parent radionuclide and a low affinity for said desired daughter radionuclide such that the decontamination factor of the desired daughter radionuclide from the parent radionuclide impurities of said first separation medium under the conditions of contact is greater than or equal to 102, and maintaining that contact for a time period sufficient for said parent radionuclide to be bound by the second separation medium to form a solution of substantially impurity-free desired daughter radionuclide. 8. The method according to claim 7 wherein the combined decontamination factor of the desired daughter radionuclide from the parent radionuclide impurities for both the first and second separation media is about 104 to about 1010. 9. The method according to claim 7 wherein said desired daughter and parent radionuclides have different ionic charges. 10. The method according to claim 7 wherein said desired daughter and parent radionuclides have different charge densities. 11. The method according to claim 7 wherein said desired daughter and parent radionuclides have both different ionic charges and charge densities. 12. The method according to claim 7 wherein said desired daughter radionuclide is selected from the group consisting of 90 Y, 99mTc, 103Pd, 111In, 125I, 188Re, 201Tl, 47Sc, 212Bi, 213Bi, 211At, and 223Ra. 13. A method for producing a solution of desired daughter radionuclide that is substantially free of impurities comprising the steps of: (a) providing an aqueous parent-daughter radionuclide solution containing a desired daughter radionuclide that is selected from the group consisting of 90Y, 99mTc, 103Pd, 111In, 125I, 188Re, 201Tl, 47Sc, 212Bi, 213Bi, 211At, and 223Ra; (b) contacting the parent-daughter solution with a first separation medium having a high affinity for the desired daughter radionuclide and a low affinity for the parent and other daughter radionuclides such that the decontamination factor of the desired daughter radionuclide from the parent radionuclide impurities of said first separation medium under the conditions of contact is greater than or equal to 102, said desired daughter and parent radionuclides having different ionic charges as they are present in said solution, and maintaining that contact for a time period sufficient for said desired daughter radionuclide to be bound by the first separation medium to form desired daughter-laden separation medium and a desired daughter-depleted parent-daughter solution; (c) removing the desired daughter-depleted parent daughter solution from the separation medium; (d) stripping the desired daughter radionuclide from the desired daughter-laden separation medium to form a solution of desired daughter radionuclide; (e) contacting the solution of desired daughter radionuclide with a second separation medium having a high affinity for the parent radionuclide and a low affinity for said desired daughter radionuclide such that the decontamination factor of the desired daughter radionuclide from the parent radionuclide impurities of said first separation medium under the conditions of contact is greater than or equal to 102, and maintaining that contact for a time period sufficient for said parent radionuclide to be bound by the second separation medium to form a solution of substantially impurity-free desired daughter radionuclide. 14. The method according to claim 13 wherein the combined decontamination factor of the desired daughter radionuclide from the parent radionuclide impurities for both the first and second separation media is about 104 to about 1010. 15. A method for producing a solution of desired daughter radionuclide that is substantially free of impurities comprising the steps of: (a) providing an aqueous parent-daughter radionuclide solution containing a desired daughter radionuclide that is selected from the group consisting of 90Y, 99mTc, 103Pd, 111In, 125I, 188Re, 201Tl, 47Sc, 212Bi, 213Bi, 211At, and 223Ra; (b) contacting the parent-daughter solution with a first separation medium having a high affinity for the desired daughter radionuclide and a low affinity for the parent and other daughter radionuclides such that the decontamination factor of the desired daughter radionuclide from the parent radionuclide impurities of said first separation medium under the conditions of contact is greater than or equal to 102, said desired daughter and parent radionuclides having different charge densities as they are present in said solution, and maintaining that contact for a time period sufficient for said desired daughter radionuclide to be bound by the first separation medium to form desired daughter-laden separation medium and a desired daughter-depleted parent-daughter solution; (c) removing the desired daughter-depleted parent daughter solution from the separation medium; (d) stripping the desired daughter radionuclide from the desired daughter-laden separation medium to form a solution of desired daughter radionuclide; (e) contacting the solution of desired daughter radionuclide with a second separation medium having a high affinity for the parent radionuclide and a low affinity for said desired daughter radionuclide such that the decontamination factor of the desired daughter radionuclide from the parent radionuclide impurities of said first separation medium under the conditions of contact is greater than or equal to 102, and maintaining that contact for a time period sufficient for said parent radionuclide to be bound by the second separation medium to form a solution of substantially impurity-free desired daughter radionuclide. 16. The method according to claim 15 wherein the combined decontamination factor of the desired daughter radionuclide from the parent radionuclide impurities for both the first and second separation media is about 104 to about 1010. 17. The method according to claim 15 wherein the desired daughter radionuclide is 212Bi(III). 18. The method according to claim 17 wherein one parent radionuclide is 224Ra(II). 19. A method for producing a solution of desired daughter radionuclide that is substantially free of impurities comprising the steps of: (a) providing an aqueous parent-daughter radionuclide solution containing a desired daughter radionuclide that is selected from the group consisting of 90Y, 99mTc, 103Pd, 111In, 125I, 188Re, 201Tl, 47Sc, 212Bi, 213Bi, 211At, and 223Ra; (b) contacting the parent-daughter solution with a first separation medium having a high affinity for the desired daughter radionuclide and a low affinity for the parent and other daughter radionuclides such that the decontamination factor of the desired daughter radionuclide from the parent radionuclide impurities of said first separation medium under the conditions of contact is greater than or equal to 102, said desired daughter and parent radionuclides having both different ionic charges and charge densities as they are present in said solution, and maintaining that contact for a time period sufficient for said desired daughter radionuclide to be bound by the first separation medium to form desired daughter-laden separation medium and a desired daughter-depleted parent-daughter solution; (c) removing the desired daughter-depleted parent daughter solution from the separation medium; (d) stripping the desired daughter radionuclide from the desired daughter-laden separation medium to form a solution of desired daughter radionuclide; (e) contacting the solution of desired daughter radionuclide with a second separation medium having a high affinity for the parent radionuclide and a low affinity for said desired daughter radionuclide such that the decontamination factor of the desired daughter radionuclide from the parent radionuclide impurities of said first separation medium under the conditions of contact is greater than or equal to 102, and maintaining that contact for a time period sufficient for said parent radionuclide to be bound by the second separation medium to form a solution of substantially impurity-free desired daughter radionuclide. 20. The method according to claim 17 wherein the combined decontamination factor of the desired daughter radionuclide from the parent radionuclide impurities for both the first and second separation media is about 104 to about 1010.
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