In vivo behavior of copper-64-labeled methanephosphonate tetraaza macrocyclic ligands

Abstract: Copper-64 ( T(1/2)=12.7 h; beta(+): 0.653 MeV, 17.4%; beta(-): 0.578 MeV, 39%) is produced in a biomedical cyclotron and has applications in both imaging and therapy. Macrocyclic chelators are widely used as bifunctional chelators to bind copper radionuclides to antibodies and peptides owing to their relatively high kinetic stability. In this paper, we evaluated three tetraaza macrocyclic ligands with two, three, and four pendant methanephosphonate functional groups. DO2P [1,4,7,10-tetraazacyclododecane-1,7-di… Show more

“…20.6 (2) a: Solvent: water; [43,44] 12.80 (8) 8.47(2)/6.39(2) 7.43 2.08 10.92 (2) In agreement with data available in the literature for polyaminomethanephosphonate derivatives (Table 2 and Chart 2) [40][41][42][43][44], the two higher protonation constants (log K L 1 H = 11.21(2) and log K L 1 H 2 = 10.29(2)) were attributed to the two tertiary amines. Interestingly, it has been shown for a series of compounds containing two geminal amino-N,N-bis(methanephosphonate) or amino-N-(methanephosphonate) units that the acido-basic properties of the tertiary amines can be drastically influenced by the length of the spacer connecting the two symmetrical sites (Table 2).…”

Highly stable acyclic bifunctional chelator for ⁶⁴Cu PET imaging

“…20.6 (2) a: Solvent: water; [43,44] 12.80 (8) 8.47(2)/6.39(2) 7.43 2.08 10.92 (2) In agreement with data available in the literature for polyaminomethanephosphonate derivatives (Table 2 and Chart 2) [40][41][42][43][44], the two higher protonation constants (log K L 1 H = 11.21(2) and log K L 1 H 2 = 10.29(2)) were attributed to the two tertiary amines. Interestingly, it has been shown for a series of compounds containing two geminal amino-N,N-bis(methanephosphonate) or amino-N-(methanephosphonate) units that the acido-basic properties of the tertiary amines can be drastically influenced by the length of the spacer connecting the two symmetrical sites (Table 2).…”

Highly stable acyclic bifunctional chelator for ⁶⁴Cu PET imaging

“…The biodistribution of 64/67 Cu 2+ complexes of the polyaminophosphonate macrocyles and the bridged-cyclam ligands have also been reported [86,88]. Selected data from these studies are compared with those of polyaminotetraazamarocyclic complexes in Fig.…”

“…The breakdown of the complex or the association of the free radiometal ion with the serum is monitored for a time-frame comparable to the life-time of the target agent in the body. Table 6 summarises selected data from serum stability studies of various 64/67 Cu complexes [86,88,[101][102][103]. Unfortunately, a strict comparison can be difficult at times since not all radiometal ion complexes are at equimolar ratios of metal to ligand prior to incubation.…”

Molecular imaging with copper-64

“…The H 8 dotp was prepared according to a previously described procedure [10,11]. The complex was prepared by mixing metal ion solutions and the ligand in the solid state in the molar ratio 1:1.1 (10% ligand excess was used to ensure complete complex formation).…”

Dissociation kinetics study of Ce(III) complexes with H8dotp (H8dotp = 1,4,7,10-tetraazacyclododecane-1,4,7,10-tetrakis (methylphosphonic acid))