New tris-3,4-HOPO lanthanide complexes as potential imaging probes: complex stability and magnetic properties

New tris-3,4-HOPO lanthanide complexes as potential imaging probes: complex stability and magnetic properties

There is a growing interest in the development of new medical diagnostic tools with higher sensibility and less damage for the patient body, namely on imaging reporters for the management of diseases and optimization of treatment strategies. This article examines the properties of a new class of lan...

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Bibliographic Details
Published in:Dalton transactions : an international journal of inorganic chemistry Vol. 42; no. 17; p. 6046
Main Authors: Mendonça, Ana C, Martins, André F, Melchior, Andrea, Marques, Sérgio M, Chaves, Sílvia, Villette, Sandrine, Petoud, Stéphane, Zanonato, Pier Luigi, Tolazzi, Marilena, Bonnet, Célia S, Tóth, Éva, Di Bernardo, Plinio, Geraldes, Carlos F G C, Santos, M Amélia
Format: Journal Article
Language:English
Published: England 07-05-2013
Subjects:
Contrast Media - chemical synthesis
Contrast Media - chemistry
Coordination Complexes - chemical synthesis
Coordination Complexes - chemistry
Diagnostic Imaging
Gadolinium - chemistry
Humans
Hydrogen-Ion Concentration
Kinetics
Lanthanoid Series Elements - chemistry
Ligands
Magnetics
Pyridones - chemistry
Thermodynamics
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Summary:There is a growing interest in the development of new medical diagnostic tools with higher sensibility and less damage for the patient body, namely on imaging reporters for the management of diseases and optimization of treatment strategies. This article examines the properties of a new class of lanthanide complexes with a tripodal tris-3-hydroxy-4-pyridinone (tris-3,4-HOPO) ligand - NTP(PrHP)(3). Among the studies herein performed, major relevance is given to the thermodynamic stability of the complexes with a series of Ln(3+) ions (Ln = La, Pr, Gd, Er, Lu) and to the magnetic relaxation properties of the Gd(3+) complex. This hexadentate ligand enables the formation of (1 : 1) Ln(3+) complexes with high thermodynamic stability following the usual trend, while the Gd-chelates show improved relaxivity (higher hydration number), as compared with the commercially available Gd-based contrast agents (CAs); transmetallation of the Gd(3+)-L complex with Zn(2+) proved to be thermodynamically and kinetically disfavored. Therefore, NTP(PrHP)(3) emerges as part of a recently proposed new generation of CAs with prospective imaging sensibility gains.
ISSN:1477-9234
DOI:10.1039/c2dt32237d