A Scandium Generator

Mirza, Μ. Y.; Aziz, Abdulhameed

doi:10.1524/ract.1969.11.1.43

Cited by 14 publications

(8 citation statements)

References 3 publications

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“…In the 1960s and 1970s, several strategies were investigated to design a 44 Ti/ 44 Sc generator [4][5][6][7]. These studies have been typical radiochemical ones, using relatively low activities of 44 Ti and did not involve pharmaceutical aspects.…”

Section: Introductionmentioning

confidence: 99%

Scandium-44: Benefits of a Long-Lived PET Radionuclide Available from the 44Ti/44Sc Generator System

Roesch

2012

CRP

102

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(44)Ti/(44)Sc radionuclide generators are of interest for molecular imaging. The 3.97 hours half-life of (44)Sc and its high positron branching of 94.27% may stimulate the application of (44)Sc-labeled PET radiopharmaceuticals. This review describes the current status of (44)Ti production, (44)Ti/(44)Sc radionuclide generator development, post-processing of generator eluates towards medical application, identification of ligands adequate to Sc(III) co-ordination chemistry, proof-of-principle labeling of (44)Sc-DOTA-octreotides, investigation of in vitro and in vivo parameters, and initial applications for molecular imaging - both in small animals and humans.

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Section: Introductionmentioning

confidence: 99%

Scandium-44: Benefits of a Long-Lived PET Radionuclide Available from the 44Ti/44Sc Generator System

Roesch

2012

CRP

102

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“…In der Literatur sind auch ''^Sc Generatoren auf der Basis von Extraktionsverfahren beschrieben, die hohe Ausbeuten und Dekontaminationsfaktoren liefern [15]. GREENE und HILLMAN [14] entwickelten ein Melksystem mit Dowex 1 X 8 als Austauscher und einer Mischung von 0,1 m Oxalsäure und 0,2 M HCl als Elutionslösung.…”

Section: Discussionunclassified

Die Radionuklidgeneratoren ,¹¹³Sn/^113m In, ⁶⁸Ge/⁶⁸Ga und ⁴⁴Ti/⁴⁴Sc

Seidl

Lieser

1973

Radiochimica Acta

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196 E. SEIDL und K. H. LIESER, Die Radionuklidgeneratoren 113Sn/113min, 68Ge/68Gaund 44Ti/44sc Radiochimica Acta Ständlich, weil die Konzentrationen am Arbeitspunkt entsprechend der Stärke der Komplexbildung abgestuft sind. Der Trennfaktor nimmt mit stärkerer Komplexbildung zu. Säulentrennung An einer kleinen Austauschersäule wurden mit NH^a-hydroxyisobutyrat und NH4-diglykolat einige Versuche zur Trennung benachbarter Lanthaniden ausgeführt. Das Paar 152-Eu und 153-Sm wurde gut getrennt. Beide Komplexbildner hatten annähernd den gleichen Trennfaktor logr= 0.31. Das Paar 144-Ce und 144-Pr (Tochter) gab mit a-Hydroxyisobutyrat überhaupt keine Trennung, mit Diglykolat eine gute Trennung mit dem Trennfaktor log 7"=0.42. Demnach bestehen zwischen den beiden Komplexbildnem bedeutende Unterschiede in der Abstufung der Trennfaktoren zwischen Eu und Ce. Bei gleichmäßiger Abstufung hätte man für a-hydroxyisobutyrat 0.26 und für diglykolat 0.34 zu erwarten.

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“…First studies on the design of a 44 Ti/ 44 Sc-generator were conducted in the 1960ies and 70ies excluding pharmaceutical aspects [32,35,61,62]. A first 185 MBq 44 Ti/ 44 Sc-generator designed for radiopharmaceutical use was described in the last decade [31] as well as a suitable postprocessing [40].…”

Section: Cyclotron Productionmentioning

confidence: 99%

“…First challenge in the development of the 44 Ti/ 44 Sc-generator is the high-yield production of titantium-44 via accelerated particles. Up to now, all attempts building a 44 Ti/ 44 Sc-generator described in the literature use the 45 Sc(p,2n) 44 Ti-process, although cyclotrons of high positron flux are necessary, to obtain titanium-44 in relatively low radioactivity yields [31,32,35,[61][62][63]. Before titanium-44 can be used separation from the target material and subsequent purification from residual metallic contaminants is mandatory.…”

Section: Cyclotron Productionmentioning

confidence: 99%

Pre-Therapeutic Dosimetry Employing Scandium-44 for Radiolabeling PSMA-617

Eppard¹

2019

Prostatectomy

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In recent years, the positron emitter scandium-44 moved into the focus of research providing favorable nuclide properties for an application in nuclear medicine. Radiolabeling of PSMA-617 with scandium-44 as diagnostic match for [ 177 Lu]Lu-PSMA-617 instead of gallium-68 would enable pre-therapeutic dosimetry in clinical setting. Due to the chemical similarities of scandium and lutetium, the in vitro and in vivo characteristics of [ 177 Lu]Lu-PSMA-617 are more similar to [ 44 Sc]Sc-PSMA-617 than to the 68 Ga-compounds [ 68 Ga]Ga-PSMA-617 or [ 68 Ga]Ga-PSMA-11. [ 44 Sc]Sc-PSMA-617 showed its potential in a clinical setting as a PET imaging agent of prostate cancer providing several advantages over gallium-68 labeled tracers. The longer half-life of the nuclide would allow, for example, an optimized patient management and treatment, long-term or late time point imaging as well as transportation to more distant PET centers. However, especially clinical applications like individual dosimetry or intraoperative applications are still under investigation.

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A Scandium Generator

Cited by 14 publications

References 3 publications

Scandium-44: Benefits of a Long-Lived PET Radionuclide Available from the 44Ti/44Sc Generator System

Scandium-44: Benefits of a Long-Lived PET Radionuclide Available from the 44Ti/44Sc Generator System

Die Radionuklidgeneratoren ,¹¹³Sn/^113m In, ⁶⁸Ge/⁶⁸Ga und ⁴⁴Ti/⁴⁴Sc

Pre-Therapeutic Dosimetry Employing Scandium-44 for Radiolabeling PSMA-617

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A Scandium Generator

Cited by 14 publications

References 3 publications

Scandium-44: Benefits of a Long-Lived PET Radionuclide Available from the 44Ti/44Sc Generator System

Scandium-44: Benefits of a Long-Lived PET Radionuclide Available from the 44Ti/44Sc Generator System

Die Radionuklidgeneratoren ,113Sn/113m In, 68Ge/68Ga und 44Ti/44Sc

Pre-Therapeutic Dosimetry Employing Scandium-44 for Radiolabeling PSMA-617

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Die Radionuklidgeneratoren ,¹¹³Sn/^113m In, ⁶⁸Ge/⁶⁸Ga und ⁴⁴Ti/⁴⁴Sc