Evaluation of chelating agents based on pyridine-azacrown compounds HPATA, PATAM, and HPATPA for Ga and Lu.

In this article, we present the synthesis and characterization of three macrocyclic chelators, HPATA, PATAM, and HPATPA, based on a pyridine-azacrown compound. Their complexation with Ga and Lu has been thoroughly investigated using MALDI TOF MS, H NMR spectroscopy, radiolabeling studies, and experiments in vitro with fetal bovine serum and a 1000-fold molar excess of HEDTA. Our studies have shown that the chelators HPATA and HPATPA form complexes at room temperature with both radionuclides (RCY > 80 % and > 90 % for complexes with HPATA and HPATPA after 30 min, respectively).

Synthesis of new acyclic chelators H4aPyta and H6aPyha and their complexes with Cu, Ga, Y, and Bi.

In this article, we present the synthesis and characterization of new acyclic pyridine-containing polyaminocarboxylate ligands H4aPyta and H6aPyha, which differ in structural rigidity and the number of chelating groups. Their abilities to form complexes with Cu, Ga, Y, and Bi cations, as well as the stability of the complexes, were evaluated by potentiometric titration method, radiolabeling with the corresponding radionuclides, studies, mass spectrometry, and HPLC. The structures of the resulting complexes were determined using NMR spectroscopy and DFT calculations.

Biodistribution of Mesenchymal Stromal Cells Labeled with [Zr]Zr-Oxine in Local Radiation Injuries in Laboratory Animals.

Background: Tracking the migration pathways of living cells after their introduction into a patient's body is a topical issue in the field of cell therapy. Questions related to studying the possibility of long-term intravital biodistribution of mesenchymal stromal cells in the body currently remain open.

Methods: Forty-nine laboratory animals were used in the study.

The impact of zirconium-89 solution formulation on the efficiency of [ Zr]Zr-deferoxamine synthesis.

In recent years, clinical imaging with Zr-based radiopharmaceuticals has been gaining significant importance in nuclear medicine. This article provides the results of a comparative study of methods for obtaining Zr solutions using ZR, Chelex-100, and TBP resins in the form of [ Zr]Zr-oxalate, [ Zr]Zr-chloride, and [ Zr]Zr-citrate in terms of purification and labeling efficiency. All evaluated methods allowed us to obtain Zr with high yield (>90% in 1 ml).