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Author: Graeme James Stasiuk
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Languages : en
Pages :
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This thesis reports a series of novel Ln-DO3A based complexes, modulation of emission intensity (Eu and Tb) has been achieved and relaxivity, r1, (Gd) has been shown. Propargyl-appended lanthanide complexes derived from DO3A, has a hydration state, q = 2. They undergo Cu(I) catalysed cycloaddition reactions with azides to form 1,2,3-triazole appended complexes: coordination of one of the triazole nitrogen atoms to the metal centre changes the local coordination environment and luminescence studies indicate a hydration state of q = 1. Propargyl-appended Ln(III) complexes show unanticipated reactivity towards NaN3 in the Cu(I) catalysed 'click' reaction yielding an unsubstituted 1,2,3-triazole. The resulting Eu(III) complex exhibits pH-responsive 1H NMR and Ln(III) luminescence behaviour in the physiological pH range, consistent with deprotonation of the NH-acidic bound triazole. The coordination mode of the NH-triazole switches from NH-triazole bound in a pyridinic manner to bound in an anionic manner as a triazolide, while retaining a q = 1. This was demonstrated in luminescent studies of Eu(III) and Tb(III) complexes with a pKa ~ 7.5. Relaxation measurements on the Gd(III) analogue show a q =1 throughout the pH range, i.e. no change in hydration state. To overcome the unanticipated reactivity of NaN3 with propargyl-appended Ln(III) complexes, p-ethynylbenzyl-appended Ln(III) complexes were synthesised. These show promise as precursors for multimeric, self-associating and d-f hybrid complexes, via the Cu(I) catalysed cycloaddition or 'click' reaction. Luminescent studies show evidence of the formation of 1,2,3-triazoles that do not bind to the Ln(III) metal centre, with a hydration state q =1. These complexes have been applied in the synthesis of multimeric, self-associating and d-f hybrid compounds. Uridine was attached to a EuDO3A chelate via four different linkers. These complexes are precursors for an accumulation and activation strategy, developed as enzyme activated contrast agents. Neutral q = 1 Eu(III) uridine-DO3A based complexes were successfully synthesised and linked via a propyl, amide or 1,2,3-triazole unit.
Author: Graeme James Stasiuk
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
This thesis reports a series of novel Ln-DO3A based complexes, modulation of emission intensity (Eu and Tb) has been achieved and relaxivity, r1, (Gd) has been shown. Propargyl-appended lanthanide complexes derived from DO3A, has a hydration state, q = 2. They undergo Cu(I) catalysed cycloaddition reactions with azides to form 1,2,3-triazole appended complexes: coordination of one of the triazole nitrogen atoms to the metal centre changes the local coordination environment and luminescence studies indicate a hydration state of q = 1. Propargyl-appended Ln(III) complexes show unanticipated reactivity towards NaN3 in the Cu(I) catalysed 'click' reaction yielding an unsubstituted 1,2,3-triazole. The resulting Eu(III) complex exhibits pH-responsive 1H NMR and Ln(III) luminescence behaviour in the physiological pH range, consistent with deprotonation of the NH-acidic bound triazole. The coordination mode of the NH-triazole switches from NH-triazole bound in a pyridinic manner to bound in an anionic manner as a triazolide, while retaining a q = 1. This was demonstrated in luminescent studies of Eu(III) and Tb(III) complexes with a pKa ~ 7.5. Relaxation measurements on the Gd(III) analogue show a q =1 throughout the pH range, i.e. no change in hydration state. To overcome the unanticipated reactivity of NaN3 with propargyl-appended Ln(III) complexes, p-ethynylbenzyl-appended Ln(III) complexes were synthesised. These show promise as precursors for multimeric, self-associating and d-f hybrid complexes, via the Cu(I) catalysed cycloaddition or 'click' reaction. Luminescent studies show evidence of the formation of 1,2,3-triazoles that do not bind to the Ln(III) metal centre, with a hydration state q =1. These complexes have been applied in the synthesis of multimeric, self-associating and d-f hybrid compounds. Uridine was attached to a EuDO3A chelate via four different linkers. These complexes are precursors for an accumulation and activation strategy, developed as enzyme activated contrast agents. Neutral q = 1 Eu(III) uridine-DO3A based complexes were successfully synthesised and linked via a propyl, amide or 1,2,3-triazole unit.
Author: Christopher G. Gulgas
Publisher:
ISBN:
Category :
Languages : en
Pages : 133
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Novel Eu3-containing macrocyclic complexes were synthesized and studied as anion sensing probe molecules. Several of these macrocycles exhibited unique luminescence responses to hydrogen-bond accepting anions (fluoride, acetate, and dihydrogen phosphate) in DMSO, even in the presence of a chloride ion background. The first series of compounds highlighted a high-yielding synthetic route for highly functional macrocycles that incorporate a Eu3 chelate, aromatic antennae, thiourea groups as anion-binding units, and a variable linker that tunes the size and rigidity of the pocket. These macrocycles exhibited Eu3 luminescence where emission intensity ([lambda]exc = 272 nm, [lambda]em = 614 nm) was correlated to the linker length. Anion-induced changes in emission intensity were dependent on the basicity of the anion, and emission enhancements were observed up to 77% upon titration with fluoride in one case. Through luminescence lifetime studies of the Eu3+ macrocycles and the study of a newly synthesized series of organic model compounds, it was determined that the luminescence response to anions was the result of interaction with the thiourea moieties and no evidence was observed for anion coordination to Eu3+. Additionally, two second-generation macrocycles were synthesized, incorporating an amine unit for stronger binding affinity. One of these macrocycles, featuring a pendant naphthalene antenna, responded to several anions in aqueous solution by means of a luminescence decrease of up to 30%. This general macrocyclic design shows promise for the development of Eu3+-based anion sensors that function in competitive solvents. In continuing work with lanthanide complexes, a new targeted Gd3+-based magnetic resonance imaging contrast agent was designed and synthesized for specific binding to the dopamine receptor protein. A relaxivity of 7.1 mM−1s−1 was measured for this complex at 400 mHz and 310 K.A Eu3+ analogue was also synthesized and structurally characterized. Luminescence lifetime measurements revealed the presence of 2 coordinated water molecules in aqueous solution, consistent with the observed relaxivity of the Gd3+ complex. The synthetic scheme described herein can be extended to the synthesis of a series of targeted complexes for enhanced dopamine receptor binding and imaging studies.
Author: Mark Jones
Publisher:
ISBN:
Category : Luminescence
Languages : en
Pages : 0
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Author: Timothy Stephen O'Gara Goebel
Publisher:
ISBN:
Category : Diagnostic imaging
Languages : en
Pages : 96
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Author: John Michael Mansfield Griffin
Publisher:
ISBN:
Category : Chelates
Languages : en
Pages : 166
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Author: Flavia Fucassi
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Michel M.J. Modo
Publisher: CRC Press
ISBN: 1420004093
Category : Medical
Languages : en
Pages : 440
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Book Description
The ability of molecular and cellular imaging to track the survival, migration, and differentiation of cells in vivo as well as monitor particular gene expression in living subjects is rapidly moving from the research laboratory into daily clinical settings. The interdisciplinary nature of the field mandates a constant dialogue among molecular and
Author: Andre S. Merbach
Publisher: John Wiley & Sons
ISBN: 1118503678
Category : Science
Languages : en
Pages : 514
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Book Description
Magnetic Resonance Imaging (MRI) is one of the most important tools in clinical diagnostics and biomedical research. The number of MRI scanners operating around the world is estimated to be approximately 20,000, and the development of contrast agents, currently used in about a third of the 50 million clinical MRI examinations performed every year, has largely contributed to this significant achievement. This completely revised and extended second edition: Includes new chapters on targeted, responsive, PARACEST and nanoparticle MRI contrast agents. Covers the basic chemistries, MR physics and the most important techniques used by chemists in the characterization of MRI agents from every angle from synthesis to safety considerations. Is written for all of those involved in the development and application of contrast agents in MRI. Presented in colour, it provides readers with true representation and easy interpretation of the images. A word from the Authors: Twelve years after the first edition published, we are convinced that the chemistry of MRI agents has a bright future. By assembling all important information on the design principles and functioning of magnetic resonance imaging probes, this book intends to be a useful tool for both experts and newcomers in the field. We hope that it helps inspire further work in order to create more efficient and specific imaging probes that will allow materializing the dream of seeing even deeper and better inside the living organisms. Reviews of the First Edition: "...attempts, for the first time, to review the whole spectrum of involved chemical disciplines in this technique..."—Journal of the American Chemical Society "...well balanced in its scope and attention to detail...a valuable addition to the library of MR scientists..."—NMR in Biomedicine
Author: Mark Jones
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Pui-Ling Tong
Publisher: Open Dissertation Press
ISBN: 9781374698079
Category :
Languages : en
Pages :
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Book Description
This dissertation, "Lanthanide Complexes for Magnetic Resonance Imaging (MRI) Contrast Agents" by 湯佩玲, Pui-ling, Tong, was obtained from The University of Hong Kong (Pokfulam, Hong Kong) and is being sold pursuant to Creative Commons: Attribution 3.0 Hong Kong License. The content of this dissertation has not been altered in any way. We have altered the formatting in order to facilitate the ease of printing and reading of the dissertation. All rights not granted by the above license are retained by the author. DOI: 10.5353/th_b4257621 Subjects: Magnetic resonance imaging Lanthanum compounds Contrast media
