Pyridine-N-oxide analogue of DOTA as a building block for MRI contrast agents
Pyridine-N-oxide analogue of DOTA as a building block for MRI contrast agents
dissertation thesis (DEFENDED)
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Permanent link
http://hdl.handle.net/20.500.11956/19932Identifiers
Study Information System: 112836
Collections
- Kvalifikační práce [19113]
Author
Advisor
Referee
Geraldes, Carlos F. G. C.
Botta, Mauro
Marek, Radek
Faculty / Institute
Faculty of Science
Discipline
-
Department
Department of Inorganic Chemistry
Date of defense
30. 1. 2009
Publisher
Univerzita Karlova, Přírodovědecká fakultaLanguage
Czech
Grade
Pass
Conclusions In my PhD project I synthesized two new polydentate macrocyclic ligands, the monofunctional DO3A-pyNO and the bifunctional DO3A-pyNO-C. Both compounds are based on the design of DOTA, with one of the acetate pendant arms being replaced with a pyridine-Noxide arm. This structural modification has a tremendous influence on chemical properties of the lanthanide(III) complexes of these compounds. The water exchange rate in the gadolinium(III) complexes is significantly accelerated in comparison with the complexes of DOTA. In fact, the values are almost optimal for use of the Gd(III) complexes as contrast agents for magnetic resonance imaging. Besides, the complexes exist exclusively in the form of square antiprismatic isomers. I investigated the complexes by various physico-chemical techniques in solution and in solid state, in order to elucidate the relationship between their structure and properties. On the basis of these results I found an explanation to the unexpectedly fast water exchange rate observed on the squareantiprismatic isomers. I established a synthetic protocol that can be used for the attachment of the bifunctional ligand DO3A-pyNO-C to any amine-bearing molecule. I prepared a series of conjugates with polyamidoamine dendrimes and a conjugate with per-6-amino--cyclodextrine and...
Conclusions In my PhD project I synthesized two new polydentate macrocyclic ligands, the monofunctional DO3A-pyNO and the bifunctional DO3A-pyNO-C. Both compounds are based on the design of DOTA, with one of the acetate pendant arms being replaced with a pyridine-Noxide arm. This structural modification has a tremendous influence on chemical properties of the lanthanide(III) complexes of these compounds. The water exchange rate in the gadolinium(III) complexes is significantly accelerated in comparison with the complexes of DOTA. In fact, the values are almost optimal for use of the Gd(III) complexes as contrast agents for magnetic resonance imaging. Besides, the complexes exist exclusively in the form of square antiprismatic isomers. I investigated the complexes by various physico-chemical techniques in solution and in solid state, in order to elucidate the relationship between their structure and properties. On the basis of these results I found an explanation to the unexpectedly fast water exchange rate observed on the squareantiprismatic isomers. I established a synthetic protocol that can be used for the attachment of the bifunctional ligand DO3A-pyNO-C to any amine-bearing molecule. I prepared a series of conjugates with polyamidoamine dendrimes and a conjugate with per-6-amino--cyclodextrine and...