1 |
MRI kontrastní látky využívající přenosu saturace / MRI contrast agents based on saturation transferKrchová, Tereza January 2012 (has links)
Title: MRI Contrast Agents Based on Saturation Transfer Author: Bc. Tereza Krchová Department: Department of Inorganic Chemistry, Faculty of Science, Charles University in Prague Supervisor: doc. RNDr. Jan Kotek, Ph.D. Supervisor's email: modrej@natur.cuni.cz Abstract: The aim of this thesis was to synthesize macrocyclic ligands (based on the DO3A and DO2A framework) with exchangeable protons on the aminic coordinating groups that could be (after the complexation with suitable paramagnetic metal ions) potential contrast agents based on saturation transfer, so called CEST contrast agents (Chemical Exchange Saturation Transfer). Two ligands H3L1 and H2L2 with one and two aminoethyl groups have been synthesized. The structurally similar ligands H3L1 Me and H3L1 2Me with one exchangeable proton and without it have been also prepared. The protonation constants of the ligands H3L1 and H2L2 have been determined by pH 1 H NMR and potentiometric titrations. The stability constants of metal ion complexes with H3L1 and H2L2 have been also determined by potentiometry. The CEST effect of Eu3+ and Yb3+ complexes with H3L1 , H3L1 Me and H3L1 2Me in solution have been studied. The residence lifetime of the inner-sphere water molecule has been determined for Gd-L1 complex. Keywords: CEST, MRI, aminoethyl, DO3A, DO2A, 17 O...
|
2 |
17-O NMR on Crystalline Hydrades Hydrates: Impact of Hydrogen BondingNour, Sherif January 2015 (has links)
The water molecules in inorganic hydrate salts adopt different geometries and are involved in different hydrogen bond interactions. In this work, magic-angle spinning (MAS) and static 17O solid-state NMR experiments are performed to characterize the 17O electric field gradient (EFG) and chemical shift (CS) tensors of the water molecules in a series of inorganic salt hydrates which include: oxalic acid hydrate, barium chlorate hydrate, sodium perchlorate hydrate, lithium sulphate hydrate, and potassium oxalate hydrate, which were all enriched with 17O water. Data were acquired at magnetic field strengths of 9.4, 11.75, and 21.1 T. Gauge-including projector-augmented-wave density functional theory (GIPAW DFT) calculations are performed on barium chlorate hydrate and oxalic acid hydrate where structural changes including the Ow-H•••O distance, H-O-H angle, and O-H distance are employed to understand their impact on the NMR parameters. Furthermore, simplified molecular models consisting of a metal cation and a water molecule were built to establish the effect the M-Ow distance has on the parameters. The computational studies are then used to understand the experimental results. The 17O quadrupolar coupling constant ranged from 6.75 MHz in K2C2O4•H2O to 7.39 MHz in NaClO4•H2O while the asymmetry parameter ranged from 0.75 in NaClO4•H2O to 1.0 in K2C2O4•H2O and the isotropic chemical shift ranged from -15.0 ppm in NaClO4•H2O to 19.6 ppm in BaClO3•H2O. The computational results revealed the trends for each parameter, where there is an increasing trend for quadrupolar coupling constant and span as a function of increasing hydrogen bond distance, decreasing trend for the three chemical shift tensors as a function of increasing M-Ow distance and unclear trends for asymmetry parameter and skew due to competing electronic factors. Overall, this study provides benchmark 17O NMR data for water molecules in crystalline hydrates, including the first measurement of 17O chemical shift anisotropy for such materials.
|
3 |
COORDINENCES NON USUELLES DU GERMANIUMGarcia Alonso, Sonia 12 December 2006 (has links) (PDF)
Ce travail concerne l'étude de nouvelles espèces germaniées tétravalentes et divalentes présentant un germanium dans un état de coordination non usuel.<br />Le premier chapitre est une mise au point bibliographique permettant de situer le thème de notre travail dans le cadre général de l'étude des fonctions divalentes >E14. Elle concerne plus particulièrement i) les espèces divalentes hétéroleptiques halogénées stabilisées par le ligand β-diiminate L2(Cl)Ge, ii) les dérivés germaniés porteurs de ligands de type “pince” O-chélatants. <br />Le deuxième chapitre, concerne les complexes Germanium(II)-tungstène [L2(X)Ge]nW(CO)6-n (L2 = NPhC(Me)CHC(Me)NPh ; n = 1, X = OTf ; n = 2, X = Cl). Des réactions de métathèse ion chlorure/ions peu coordinants (TfO-, BPh4-, PF6-) de ces complexes ont été envisagées pour accéder aux complexes cationiques de types [L2Ge]n+W(CO)6-n correspondants. Les structures de deux complexes germanium(II)-tungstène sont rapportées et analysées. Un équilibre entre une forme covalente et une forme ionique des dérivés à groupement triflate a été observé dans la pyridine.<br />Le troisième chapitre présente la synthèse et les études spectroscopiques (IR ; Masse ; RMN 1H, 13C, 17O) de composés du Germanium(IV) à ligand 2-méthoxybenzyle ArCH2GeHnΣn-3 (Ar = 2-(MeO)C6H4; n = 0 et 3, Σ = X, Me, Ph, OMe ; n = 1, Σ = X, Me, Mes, OMe, OTf ; n = 2, Σ = Cl). Ces études spectroscopiques, une théorique DFT et une étude RX de ArCH2GeH2OTf ont permis de démontrer que le ligand 2-méthoxybenzyle pouvait, dans la plupart des composés, adopter une géométrie permettant une interaction groupement méthoxyle et le centre germanié. Ce chapitre décrit également les synthèses de nouvelles espèces hétéroleptiques divalentes 2-(MeO)C6H4CH2Ge(Cl) et 5-(Cl)-2-(MeO)C6H3CH2Ge(Cl) et quelques aspects de leur réactivité. L'analyse structurelle d'un nouveau type de cluster – structure à un germanium(IV) hexacoordonné et neuf germanium(II) tricoordonnés – obtenu par hydrolyse lente du mélange ArCH2GeHCl2 et Et3GeOMe est également présentée.
|
4 |
Application de la Théorie de la Fonctionnelle de la Densité à la modélisation de la diffusion de l'ion oxygène dans des électrolytes solides modèles et des conducteurs mixtesFrayret, Christine 19 October 2004 (has links) (PDF)
Ce travail de modélisation représente l'une des premières tentatives d'exploitation de la Théorie de la Fonctionnelle de la Densité et de l'analyse topologique de la densité électronique pour rendre compte des processus de diffusion à l'échelle atomique dans les oxydes conducteurs ioniques. La méthodologie développée permet d'accéder aux différents facteurs susceptibles de régir le phénomène de transport de matière : effets de contrainte stérique (locale et à l'échelle de la maille du réseau), polarisabilité des espèces atomiques, transferts de charge, relaxation autour des défauts ponctuels, liaison chimique, .... Cette approche a été appliquée à l'étude du transport de l'ion oxygène dans différents électrolytes solides modèles (cérine et thorine) et dans le conducteur mixte La2NiO4+d. Au delà du cadre théorique, une approche expérimentale de ce processus à l'échelle microscopique a été initiée sur la base d'une étude par RMN de l' 17O.
|
5 |
Potenciální kontrastní látky pro MRI založené na komplexech manganu(II) / Potential contrast agents for MRI based on manganese(II) complexesDrahoš, Bohuslav January 2011 (has links)
The thesis is focused on the synthesis and characterization of novel Mn2+ complexes as alternative to Gd3+ chelates which are wide-spread contrast agents in Magnetic Resonance Imaging (MRI). In the perspective to find suitable chelators of Mn2+ , three groups of pentadentate ligands with different size of macrocylic cavity, different donor atoms and number of pendant arms containing various functional groups have been investigated. Coordination numbers of 6 or 7 were found in the crystal structure of the Mn2+ complexes enabling binding of one or two water molecules in the first coordination sphere. The direct water coordination causes a decrease in the complex stability and thus, the thermodynamic stability of investigated chelates is lower than that of polyaminocarboxylate complexes and their dissociation is very fast in comparison to [Mn(nota)] and [Mn(dota)]2- . The studied Mn2+ complexes do not undergo oxidation in air except for complexes with 12-membered ligands which are oxidized to Mn3+ species. The proton relaxivities of the bishydrated complexes are two times higher than those for monohydrated complexes and are comparable to those of commercial contrast agents based on Gd3+ complexes. Variable-temperature 17 O NMR data revealed that the water exchange varies from slow to intermediate or...
|
6 |
Geração química de oxigênio-17 molecular no estado singlete, 17O2 (1Δg), e estudos de lesões em ácidos graxos, colesterol e guanina por espectrometria de ressonância magnética nuclear, massa e luminescência / Chemical generation of 17-labeled singlet molecular oxygen 17O2(1Δg) in studies of lesions in fatty acids, cholesterol and guanine by nuclear magnetic resonance, mass and chemiluminescenceUemi, Miriam 27 April 2007 (has links)
Estudos envolvendo o oxigênio molecular singlete (1O2) tem uma relevância biológica, uma vez que esta espécie, devido ao caráter eletrofílico, reage com moléculas ricas em elétrons como proteínas, lipídeos e DNA provocando danos que resultam em perdas de função e integridade celular. Em sistemas biológicos, a presença de outras espécies reativas de oxigênio e nitrogênio, dificultam a identificação de lesões específicas causadas por 1O2 .Neste contexto, este trabalho foi desenvolvido objetivando a síntese de endoperóxidos isotopicamente marcados com 17O para serem utilizados como fonte geradora limpa de 17[1O2] em estudos mecanísticos. A capacidade de geração de 17[1O2] pelo endoperóxido N,N\'-di(2,3-dihidroxipropil)-3,3\'-(1,4 naftilideno) dipropanamida 17O (DHPN17O2) foi confirmada utilizando o captador químico sulfato mono-{2-[10-(2-sulfoxi-etil)-antracen-9-il]-etil}éster de sódio e o nucleosídeo 2\'- desoxiguanosina. Os produtos isotopicamente marcados com 17O formados foram analisados por espectrometria de ressonância magnética nuclear e cromatografia líquida de alta eficiência acoplado ao espectrômetro de massa. Os lipídeos, em especial o colesterol ao reagir com o 1O2 geram hidroperóxidos de colesterol como produtos de oxidação primária e na presença de metais resulta em compostos de maior reatividade e toxicidade, como os radicais peroxila, que contribuem para a propagação da peroxidação lipídica. Neste trabalho, demonstramos que os hidroperóxidos de colesterol são capazes de gerar 1O2 na presença de metal através de medidas de luminescência, utilização de supressores e captador químico de 1O2. Os mecanismos de reação envolvidos foram estudados e determinados por espectrometria de massa acoplada a cromatografia líquida de alta eficiência. Por fim, a caracterização detalhada dos produtos formados por espectrometria de ressonância magnética nuclear e massa na reação do colesterol com 1O2 mostrou que além dos hidroperóxidos a reação também produz um aldeído, o 3β -hidroxi-5β-hidroxi-B-norcolestano-6β-carboxialdeído. Até o momento, este composto havia sido identificado como um produto específico da ozonização do colesterol. Neste estudo, baseado nos estudos por reações de quimiluminescência, é proposto o mecanismo de formação deste aldeído em reações de oxidação de colesterol por 1O2 envolvendo intermediário dioxetano. / Studies involving singlet molecular oxygen (1O2) has biological relevance, once this species, due to its eletrophylic character, reacts with rich electron molecules such as proteins, lipids and DNA causing damages that result in loss of function and cellular integrity. In biological system, the presence of other reactive species of oxygen and nitrogen impair the identification of lesions caused by 1O2. In this context, this work was developed with the aim of synthesizing <SUP17O-labeleded endoperoxides to be used as a clean source of (1O2) in mechanistic studies. The ability of 17[1O2]generation by N,N\'-di(2,4-dihydroxypropyl)-1,4-naphthalene-dipropanamide labeled with 17O(DHNP17O2) was observed using the disodium salt of anthracene-9,10-diyldiethyl disulfate as a chemical trap and the nucleoside 2\'-deoxyguanosine. The products isotopically labeled with 17O were analyzed by nuclear magnetic resonance spectroscopy and high performance liquid chromatography coupled to a mass spectrometer. Lipds, in special the cholesterol, when reacting with singlet molecular oxygen generate cholesterol hydroperoxides as primary products and in the presence of metals result in compounds of higher reactivity and toxicity, such as peroxyl radicals which contribute to the propagation of lipid peroxidation. In this work, we demonstrated that cholesterol hydroperoxides are able to generate singlet molecular oxygen in the presence of metal by chemiluminescence measurements by testing the effect of singlet molecular oxygen quencher and by chemical trap. The involved reaction mechanisms were studied and determined by mass spectrometry coupled to the high performance liquid chromatography. Finally, we detailed characterization of the products formed in the reaction of cholesterol with 1O2 by nuclear magnetic resonance and mass spectroscopy showed that besides cholesterol hydroperoxides, the reaction also produces an aldehyde, 3βhydroxy-5β-hydroxy-B-norcholestan-6β-carboxyaldehyde which had been identified as a specific product of cholesterol ozonization. In this study, based on the studies of chemiluminescence reactions, the mechanism of formation of this aldehyde in reaction of oxidation of cholesterol by 1O2 involving a dioxetane intermediate has been proposed.
|
7 |
Geração química de oxigênio-17 molecular no estado singlete, 17O2 (1Δg), e estudos de lesões em ácidos graxos, colesterol e guanina por espectrometria de ressonância magnética nuclear, massa e luminescência / Chemical generation of 17-labeled singlet molecular oxygen 17O2(1Δg) in studies of lesions in fatty acids, cholesterol and guanine by nuclear magnetic resonance, mass and chemiluminescenceMiriam Uemi 27 April 2007 (has links)
Estudos envolvendo o oxigênio molecular singlete (1O2) tem uma relevância biológica, uma vez que esta espécie, devido ao caráter eletrofílico, reage com moléculas ricas em elétrons como proteínas, lipídeos e DNA provocando danos que resultam em perdas de função e integridade celular. Em sistemas biológicos, a presença de outras espécies reativas de oxigênio e nitrogênio, dificultam a identificação de lesões específicas causadas por 1O2 .Neste contexto, este trabalho foi desenvolvido objetivando a síntese de endoperóxidos isotopicamente marcados com 17O para serem utilizados como fonte geradora limpa de 17[1O2] em estudos mecanísticos. A capacidade de geração de 17[1O2] pelo endoperóxido N,N\'-di(2,3-dihidroxipropil)-3,3\'-(1,4 naftilideno) dipropanamida 17O (DHPN17O2) foi confirmada utilizando o captador químico sulfato mono-{2-[10-(2-sulfoxi-etil)-antracen-9-il]-etil}éster de sódio e o nucleosídeo 2\'- desoxiguanosina. Os produtos isotopicamente marcados com 17O formados foram analisados por espectrometria de ressonância magnética nuclear e cromatografia líquida de alta eficiência acoplado ao espectrômetro de massa. Os lipídeos, em especial o colesterol ao reagir com o 1O2 geram hidroperóxidos de colesterol como produtos de oxidação primária e na presença de metais resulta em compostos de maior reatividade e toxicidade, como os radicais peroxila, que contribuem para a propagação da peroxidação lipídica. Neste trabalho, demonstramos que os hidroperóxidos de colesterol são capazes de gerar 1O2 na presença de metal através de medidas de luminescência, utilização de supressores e captador químico de 1O2. Os mecanismos de reação envolvidos foram estudados e determinados por espectrometria de massa acoplada a cromatografia líquida de alta eficiência. Por fim, a caracterização detalhada dos produtos formados por espectrometria de ressonância magnética nuclear e massa na reação do colesterol com 1O2 mostrou que além dos hidroperóxidos a reação também produz um aldeído, o 3β -hidroxi-5β-hidroxi-B-norcolestano-6β-carboxialdeído. Até o momento, este composto havia sido identificado como um produto específico da ozonização do colesterol. Neste estudo, baseado nos estudos por reações de quimiluminescência, é proposto o mecanismo de formação deste aldeído em reações de oxidação de colesterol por 1O2 envolvendo intermediário dioxetano. / Studies involving singlet molecular oxygen (1O2) has biological relevance, once this species, due to its eletrophylic character, reacts with rich electron molecules such as proteins, lipids and DNA causing damages that result in loss of function and cellular integrity. In biological system, the presence of other reactive species of oxygen and nitrogen impair the identification of lesions caused by 1O2. In this context, this work was developed with the aim of synthesizing <SUP17O-labeleded endoperoxides to be used as a clean source of (1O2) in mechanistic studies. The ability of 17[1O2]generation by N,N\'-di(2,4-dihydroxypropyl)-1,4-naphthalene-dipropanamide labeled with 17O(DHNP17O2) was observed using the disodium salt of anthracene-9,10-diyldiethyl disulfate as a chemical trap and the nucleoside 2\'-deoxyguanosine. The products isotopically labeled with 17O were analyzed by nuclear magnetic resonance spectroscopy and high performance liquid chromatography coupled to a mass spectrometer. Lipds, in special the cholesterol, when reacting with singlet molecular oxygen generate cholesterol hydroperoxides as primary products and in the presence of metals result in compounds of higher reactivity and toxicity, such as peroxyl radicals which contribute to the propagation of lipid peroxidation. In this work, we demonstrated that cholesterol hydroperoxides are able to generate singlet molecular oxygen in the presence of metal by chemiluminescence measurements by testing the effect of singlet molecular oxygen quencher and by chemical trap. The involved reaction mechanisms were studied and determined by mass spectrometry coupled to the high performance liquid chromatography. Finally, we detailed characterization of the products formed in the reaction of cholesterol with 1O2 by nuclear magnetic resonance and mass spectroscopy showed that besides cholesterol hydroperoxides, the reaction also produces an aldehyde, 3βhydroxy-5β-hydroxy-B-norcholestan-6β-carboxyaldehyde which had been identified as a specific product of cholesterol ozonization. In this study, based on the studies of chemiluminescence reactions, the mechanism of formation of this aldehyde in reaction of oxidation of cholesterol by 1O2 involving a dioxetane intermediate has been proposed.
|
Page generated in 0.0165 seconds