On-cartridge preparation and evaluation of 68Ga-, 89Zr- and 64Cu-precursors for cell radiolabelling

A Socan; M Petrik; P Kolenc Peitl; M Krošelj; C Rangger; Z Novy; U Svajger; T Gmeiner; C Decristoforo

doi:10.1016/j.nucmedbio.2019.04.001

On-cartridge preparation and evaluation of ⁶⁸Ga-, ⁸⁹Zr- and ⁶⁴Cu-precursors for cell radiolabelling

Nucl Med Biol. 2019 Apr:71:23-31. doi: 10.1016/j.nucmedbio.2019.04.001. Epub 2019 Apr 15.

Authors

A Socan¹, M Petrik², P Kolenc Peitl¹, M Krošelj¹, C Rangger³, Z Novy², U Svajger⁴, T Gmeiner⁵, C Decristoforo⁶

Affiliations

¹ Department of Nuclear Medicine, University Medical Centre Ljubljana, Ljubljana, Slovenia.
² Institute of Molecular and Translational Medicine, Faculty of Medicine and Dentistry, Palacky University, Olomouc, Czech Republic.
³ Department of Nuclear Medicine, Medical University of Innsbruck, Innsbruck, Austria.
⁴ Blood Transfusion Centre of Slovenia, Ljubljana, Slovenia.
⁵ Institue of Pharmacy, Faculty of Pharmacy, Ljubljana, Slovenia.
⁶ Department of Nuclear Medicine, Medical University of Innsbruck, Innsbruck, Austria. Electronic address: clemens.decristoforo@i-med.ac.at.

PMID: 31128475
DOI: 10.1016/j.nucmedbio.2019.04.001

Abstract

Introduction: Indium-111 when formulated as indium-111 oxine remains the gold standard for long term cell tracking, whereas radiometals for improved PET applications still have to be established. We here describe the on-cartridge formation of gallium-68, zirconium-89 and copper-64 complexes in small volumes suitable for cell labelling, including labelling of red blood cells (RBC) and white blood cells (WBC) and their biological evaluation in vivo.

Methods: Small volumes (1-2 mL) of tracers (oxine, tropolone) were directly prepared on an anion exchange cartridge (Sep-Pak QMA). Cells were radiolabelled and the labelling efficiency and efflux were evaluated. The in vivo biodistribution of copper-64-labelled WBC using [⁶⁴Cu][Cu(oxinate)₂] and [⁶⁴Cu][Cu(tropolonate)₂] was monitored in an infection and inflammation animal model using BALB/c mice.

Results: On-cartridge concentration of gallium-68, zirconium-89 and copper-64 enabled formation of oxine and tropolone tracers in small volumes with good yields (≥50%) and quality (extraction ≥90%). Prepared tracers radiolabelled the RBC comparable to indium-111 tracers and in vivo biodistribution of copper-64 labelled WBC showed clear accumulation of cells at the site of infection and inflammation.

Conclusions: This on-cartridge preparation method enables simple formation of various PET tracers for cell radiolabelling. Zirconium-89 and copper-64 tracers radiolabelled cells with sufficient stability. Due to their longer half-life this approach could be promising for routine applications where longer evaluation periods for cell tracking are needed.

Advances in knowledge and implications for patient care: This novel approach for on-cartridge concentration and preparation of oxine and tropolone precursors with different positron emitters, in small volume and suitable pH, offers a versatile tool towards cell labelling for preclinical and clinical PET applications.

Keywords: Cell labelling; Copper-64; Gallium-68; On-cartridge complex formation; PET; Zirconium-89.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Animals
Copper Radioisotopes / chemistry*
Copper Radioisotopes / metabolism*
Erythrocytes / metabolism
Gallium Radioisotopes / chemistry*
Gallium Radioisotopes / metabolism*
Isotope Labeling
Leukocytes / metabolism
Mice
Positron Emission Tomography Computed Tomography
Radiochemistry / instrumentation*
Radioisotopes / chemistry*
Radioisotopes / metabolism*
Zirconium / chemistry*
Zirconium / metabolism*

Substances

Copper Radioisotopes
Copper-64
Gallium Radioisotopes
Radioisotopes
Gallium-68
Zirconium
Zirconium-89