Structural Changes to the Gd‐DTPA Complex at Varying Ligand Protonation State.

Diethylenetriaminepentaacetic acid (DTPA) is a chelating agent whose complex with the Gd3+ ion is used in medical imaging. DTPA is also used in lanthanide‐actinide separation processes. As protonation of the DTPA ligand can facilitate dissociation of the Gd3+ ion from the Gd‐DTPA complex, this work investigates the coordination structures of the aqueous Gd3+ ion and its environment when chelated by DTPA in eight different DTPA protonation states. Both classical and ab initio molecular dynamics (MD) simulations are conducted to model the solvated complexes. Extended X‐ray absorption fine structure (EXAFS) measurements of the Gd3+aqua ion, and the Gd‐DTPA complex at pH 1 and 11, are compared to EXAFS spectra predicted from the MD simulations to verify the accuracy of the MD structures. The findings of this work provide atomic‐level details into the fluctuating Gd‐DTPA complex environment as the DTPA ligand gradually detaches from the Gd3+ ion with increased protonation. [ABSTRACT FROM AUTHOR]