Chloe Jones scite author profile

Despite established clinical utilisation, there is an increasing need for safer, more inert gadolinium-based contrast agents, and for chelators that react rapidly with radiometals. Here we report the syntheses of a series of chiral DOTA chelators and their corresponding metal complexes and reveal properties that transcend the parent DOTA compound. We incorporated symmetrical chiral substituents around the tetraaza ring, imparting enhanced rigidity to the DOTA cavity, enabling control over the range of stereoisomers of the lanthanide complexes. The Gd chiral DOTA complexes are shown to be orders of magnitude more inert to Gd release than [GdDOTA]−. These compounds also exhibit very-fast water exchange rates in an optimal range for high field imaging. Radiolabeling studies with (Cu-64/Lu-177) also demonstrate faster labelling properties. These chiral DOTA chelators are alternative general platforms for the development of stable, high relaxivity contrast agents, and for radiometal complexes used for imaging and/or therapy.

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Molecular imaging of oxidized collagen quantifies pulmonary and hepatic fibrogenesis

Chen¹,

Waghorn²,

Wei³

et al. 2017

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A Janus Chelator Enables Biochemically Responsive MRI Contrast with Exceptional Dynamic Range

et al. 2016

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We introduce a new biochemically responsive Mn-based MRI contrast agent that provides a 9-fold change in relaxivity via switching between the Mn3+ and Mn2+ oxidation states. Interchange between oxidation states is promoted by a “Janus” ligand that isomerizes between binding modes that favor Mn3+ or Mn2+. It is the only ligand that supports stable complexes of Mn3+ and Mn2+ in biological milieu. Rapid interconversion between oxidation states is mediated by peroxidase activity (oxidation) and L-cysteine (reduction). This Janus system provides a new paradigm for the design of biochemically responsive MRI contrast agents.

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Chloe Jones

Chiral DOTA chelators as an improved platform for biomedical imaging and therapy applications

Molecular imaging of oxidized collagen quantifies pulmonary and hepatic fibrogenesis

A Janus Chelator Enables Biochemically Responsive MRI Contrast with Exceptional Dynamic Range

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