K. Abbas scite author profile

44 Sc is a promising β + -emitter for molecular imaging with intermediate half-life of 4 h. Due to the chemical similarity of Sc 3+ to the Lu 3+ and Y 3+ cations, 44 Sc-DOTA bioconjugates are expected to demonstrate similar properties in vivo as the 177 Lu-and 90 Y-bioconjugates, what is important in planning the radionuclide therapy. 44 Sc can be obtained from the 44 Ti/ 44 Sc generator. An alternative method for 44 Sc production can be the irradiation of 44 Ca target at small cyclotrons. The aim of our work was to optimize the parameters of 44 CaCO 3 irradiation and to develop a simple procedure for 44 Sc separation from the calcium target. For optimization study, 44 CaCO 3 targets were irradiated by protons in the energy range of 5.6-17.5 MeV with 9 MeV being found to be the best energy for 44 Ca irradiations. A simple and fast separation procedure of 44 Sc from calcium target was developed using chelating resin Chelex 100. DOTATATE conjugate was successfully radiolabelled with high yield at elevated temperature using the produced 44 Sc. While 44 CaCO 3 is relatively expensive, the cost of 44 Sc-DOTATATE production can be reduced by target recovery. Due to low proton energy required to produce GBq activity level of 44 Sc, the availability of 44 Sc radioisotope could be enhanced to open new opportunities for applications in medical imaging.

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Dual MRI-SPECT agent for pH-mapping

Gianolio

Maciocco

Imperio

et al. 2011

Chem. Commun.

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Excitation function for deuteron induced nuclear reactions on natural ytterbium for production of high specific activity 177gLu in no-carrier-added form for metabolic radiotherapy

Manenti¹,

Groppi²,

Gandini³

et al. 2011

Applied Radiation and Isotopes

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A novel method for n.c.a.⁶⁴Cu production by the⁶⁴Zn(d, 2p)⁶⁴Cu reaction and dual ion-exchange column chromatography

Kozempel¹,

Abbas²,

Simonelli³

et al. 2007

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Cyclotron production of Ac-225 for targeted alpha therapy11Dedicated to Prof. Dr. Franz Baumgärtner on the occasion of his 75th birthday.

Apostolidis

Molinet

McGinley

et al. 2005

Applied Radiation and Isotopes

118

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Cyclotron production of 43Sc for PET imaging

Walczak

Krajewski²,

Szkliniarz

et al. 2015

EJNMMI Phys

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BackgroundRecently, significant interest in 44Sc as a tracer for positron emission tomography (PET) imaging has been observed. Unfortunately, the co-emission by 44Sc of high-energy γ rays (Eγ = 1157, 1499 keV) causes a dangerous increase of the radiation dose to the patients and clinical staff. However, it is possible to produce another radionuclide of scandium—43Sc—having properties similar to 44Sc but is characterized by much lower energy of the concurrent gamma emissions. This work presents the production route of 43Sc by α irradiation of natural calcium, its separation and purification processes, and the labeling of [DOTA,Tyr3] octreotate (DOTATATE) bioconjugate.MethodsNatural CaCO3 and enriched [40Ca]CaCO3 were irradiated with alpha particles for 1 h in an energy range of 14.8–30 MeV at a beam current of 0.5 or 0.25 μA. In order to find the optimum method for the separation of 43Sc from irradiated calcium targets, three processes previously developed for 44Sc were tested. Radiolabeling experiments were performed with DOTATATE radiobioconjugate, and the stability of the obtained 43Sc-DOTATATE was tested in human serum.ResultsStudies of natCaCO3 target irradiation by alpha particles show that the optimum alpha particle energies are in the range of 24–27 MeV, giving 102 MBq/μA/h of 43Sc radioactivity which creates the opportunity to produce several GBq of 43Sc. The separation experiments performed indicate that, as with 44Sc, due to the simplicity of the operations and because of the chemical purity of the 43Sc obtained, the best separation process is when UTEVA resin is used. The DOTATATE conjugate was labeled by the obtained 43Sc with a yield >98 % at elevated temperature.ConclusionsTens of GBq activities of 43Sc of high radionuclidic purity can be obtainable for clinical applications by irradiation of natural calcium with an alpha beam.

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Cross-sections of the reaction 232Th(p,3n)230Pa for production of 230U for targeted alpha therapy

Morgenstern

Apostolidis

Bruchertseifer

et al. 2008

Applied Radiation and Isotopes

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K. Abbas

Radiolabelling of engineered nanoparticles for in vitro and in vivo tracing applications using cyclotron accelerators

Cyclotron production of ⁴⁴Sc for clinical application

Dual MRI-SPECT agent for pH-mapping

Excitation function for deuteron induced nuclear reactions on natural ytterbium for production of high specific activity 177gLu in no-carrier-added form for metabolic radiotherapy

A novel method for n.c.a.⁶⁴Cu production by the⁶⁴Zn(d, 2p)⁶⁴Cu reaction and dual ion-exchange column chromatography

Cyclotron production of Ac-225 for targeted alpha therapy11Dedicated to Prof. Dr. Franz Baumgärtner on the occasion of his 75th birthday.

Cyclotron production of 43Sc for PET imaging

Cross-sections of the reaction 232Th(p,3n)230Pa for production of 230U for targeted alpha therapy

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K. Abbas

Radiolabelling of engineered nanoparticles for in vitro and in vivo tracing applications using cyclotron accelerators

Cyclotron production of 44Sc for clinical application

Dual MRI-SPECT agent for pH-mapping

Excitation function for deuteron induced nuclear reactions on natural ytterbium for production of high specific activity 177gLu in no-carrier-added form for metabolic radiotherapy

A novel method for n.c.a.64Cu production by the64Zn(d, 2p)64Cu reaction and dual ion-exchange column chromatography

Cyclotron production of Ac-225 for targeted alpha therapy11Dedicated to Prof. Dr. Franz Baumgärtner on the occasion of his 75th birthday.

Cyclotron production of 43Sc for PET imaging

Cross-sections of the reaction 232Th(p,3n)230Pa for production of 230U for targeted alpha therapy

Contact Info

Product

Resources

About

Cyclotron production of ⁴⁴Sc for clinical application

A novel method for n.c.a.⁶⁴Cu production by the⁶⁴Zn(d, 2p)⁶⁴Cu reaction and dual ion-exchange column chromatography