Production of Short Half‐Life<scp>PET</scp>Radionuclides

Kilbourn, Michael R.; Rodnick, Melissa E.; Clark, Mara

doi:10.1002/9781119500575.ch3

Cited by 1 publication

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“…The radioisotope fluorine-18 in form of anion [ 18 F]Fis produced with proton irradiation of small volume oxygen-18 enriched water targets. At the end of the bombardment, the irradiated enriched water besides [ 18 F]fluoride ion contains other radioactive as well nonradioactive ions (Kilbourn, Rodnick, and Clark, 2020). According to the European pharmacopoeia monograph, the produced fluoride-18 is purified from target water generally using anion-exchange cartridges or by electrochemical deposition and redissolution (Ph.Eur 10, 2020).…”

Section: Introductionmentioning

confidence: 99%

Research on the Influence of Different Types of Anion-Exchange Cartridges on the Quality of [18f]naf Radiopharmaceutical as Part of Production Process Development

Lazareva¹,

Ugrinska²,

Janevik-Ivanovska

2022

kij

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[18F]Sodium Fluoride radiopharmaceutical is a sterile solution for intravenous administration, intendedfor skeletal visualization by positron emission tomography (PET). [18F]Sodium Fluoride for bone imaging wasintroduced in early 1960's, but with the increased availability of PET scanners in the last two decades, thisradiopharmaceutical has growing use in clinical practice for the detection of bone metastases. The productionprocess of [18F]NaF includes production of the radioisotope [18F]F- and purification and formulation of the [18F]NaFradiopharmaceutical. The radioisotope [18F]F- is produced by a cyclotron via the 18O(p,n)18F nuclear reaction,followed by recovery of [18F]F- from [18O] proton-irradiated water by adsorption and desorption from anionexchangeresins. The fluoride anions are trapped on the anion-exchange SPE (solid-phase extraction) cartridge, andall other cationic and water-soluble radionuclide impurities present in irradiated enriched water are collected in thewaste vial. Next step is desorption of the fluoride anions from the cartridge by elution with saline solution (0.9%NaCl). This study aimed to define the most appropriate type of anion-exchange SPE cartridge which could be usedfor routine production [18F]Sodium fluoride radiopharmaceutical which meets the quality requirements defined inEuropean pharmacopeia monograph. For that purpose, as part of development of in-house production method,manual productions with four different types of anion-exchange cartridges were performed. The influence of sorbentsubstrate and counter-ion of the cartridge on the final yield and the quality of the produced radiopharmaceutical wasinvestigated. The study also aimed to define the minimum volume of physiological solution required for the pHparameter to be within limits.The results have shown that the quality parameters: appearance, chemical purity, radiochemical purity andradionuclide purity were in defined acceptance criteria and did not differ when using different anion-exchangecartridges. The pH analyses have demonstrated that the type of cartridge and counter-ion influence the final pH of[18F]NaF solution. This study confirmed that the three types of anion-exchange resins (QMA-Cl-, QMA-CO32- andPS-OH-) could be used for production. In the experiments where QMA-Cl- was used, the required pH level wasobtained even without dilution. The other cartridges could be used in the [18F]NaF production process, but furtherdilution is necessary in order to obtain the pH value in acceptance criteria. On the basis of this study, the QMA-Cl- ischosen as a cartridge to be used in the further development of the in-house method for [18F]NaF radiopharmaceuticalproduction.

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Section: Introductionmentioning

confidence: 99%