9 results on '"Carlos F. G. C. Geraldes"'
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2. Correction to Mn(II)-Based Lipidic Nanovesicles as High-Efficiency MRI Probes
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Mauro Botta, Gilberto Mulas, Enzo Terreno, Lorenzo Tei, Gabriele A. Rolla, Carlos F. G. C. Geraldes, and Lucas W. E. Starmans
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Biomaterials ,Chemistry ,Biochemistry (medical) ,Biomedical Engineering ,General Chemistry - Published
- 2020
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3. Evaluation of [Ln(H2cmp)(H2O)] Metal Organic Framework Materials for Potential Application as Magnetic Resonance Imaging Contrast Agents
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Joop A. Peters, Carlos F. G. C. Geraldes, Giovannia A. L. Pereira, João Rocha, and Filipe A. Almeida Paz
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Lanthanide ,Relaxometry ,Aqueous solution ,Magnetic moment ,Analytical chemistry ,Contrast Media ,chemistry.chemical_element ,Pulse sequence ,Magnetic Resonance Imaging ,Ion ,Inorganic Chemistry ,chemistry.chemical_compound ,Microscopy, Electron, Transmission ,chemistry ,Lanthanum ,Microscopy, Electron, Scanning ,Physical and Theoretical Chemistry ,Methylphosphonic acid - Abstract
Aqueous suspensions of metal organic frameworks (MOF) containing different Ln(3+) ions, consisting of a series of layered Ln(3+) networks formulated as [Ln(H(2)cmp)(H(2)O)] (where H(5)cmp is (carboxymethyl)iminodi(methylphosphonic acid), with a relatively wide size distribution (400 nm to 1 microm) were studied by relaxometry. The water (1)H longitudinal (r(1)) and transverse (r(2)) relaxivities were obtained for aqueous suspensions of these materials with different lanthanide ions. The values of r(1) are very small and varied only slightly with the effective magnetic moment (mu(eff)) of the lanthanide ions, while r(2) values are larger and proportional to the value of mu(eff)(2). The dependence of R(2) on tau(CP) (the time interval between two consecutive refocusing pulses in the train of 180 degrees pulses applied in a CPMG pulse sequence) was evaluated. The value of R(2) initially increases with tau(CP) and then saturates at higher tau(CP) at a value that is about 3 to 5 times lower than R(2p)*. This can be explained by the static dephasing regime (SDR) theory, in which the diffusion effect is taken into account and where the condition tau(D)Delta omega(r(p))(-1) holds (tau(D) = r(p)(2)/D, where D is the diffusion coefficient, r(p) is the radius of the particle, and Delta omega(r(p)) is the Larmor frequency shift at the particle's surface). Separation of the particles into two fractions with different particle sizes led to a significant enhancement of the r(2) relaxivity of the smaller particles with a narrow size distribution. Magnetometric measurements performed with the particles containing Dy(III), Ho(III), and Gd(III) showed a typical paramagnetic behavior from 4 to 100 K, used to determine the Curie constants.
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- 2010
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4. Synthesis, Characterization, and Relaxivity of Two Linear Gd(DTPA)−Polymer Conjugates
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J. M. Colet, M. G. Duarte, Maria H. Gil, Joop A. Peters, Carlos F. G. C. Geraldes, L. Vander Elst, and Robert N. Muller
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Gadolinium DTPA ,Magnetic Resonance Spectroscopy ,Polymers ,animal diseases ,Size-exclusion chromatography ,Dispersity ,Biomedical Engineering ,Analytical chemistry ,Pharmaceutical Science ,Bioengineering ,Animals ,Moiety ,Chelation ,cardiovascular diseases ,Rats, Wistar ,Pharmacology ,chemistry.chemical_classification ,Chromatography ,Molecular Structure ,Chemistry ,Organic Chemistry ,Polymer ,respiratory system ,Pentetic Acid ,Rats ,Polyamide ,cardiovascular system ,Physical chemistry ,Dispersion (chemistry) ,circulatory and respiratory physiology ,Biotechnology ,Conjugate - Abstract
Two linear polyamide conjugates of Gd(DTPA)2- were synthesized and characterized by high-resolution nuclear magnetic resonance (NMR) spectroscopy and size exclusion chromatography (SEC). DTPA was copolymerized with two different diamines, 1,6-hexanediamine and trans-1,4-cyclohexanediamine, yielding the polymers DTPA-HMD and DTPA-CHD, with low polydispersity. Their molecular flexibility in solution was studied using 13C spin−lattice relaxation time measurements, indicating that the cyclohexanediamine linking moiety of the DTPA-HMD polymer is more rigid than that of DTPA-CHD. The influence of the flexibility of the linking functionalities on the relaxivity of the Gd3+-DTPA-polymer conjugates was studied by water nuclear magnetic relaxation dispersion (NMRD). The relaxivity of the Gd(DTPA-CHD) polymer was only slightly higher than that of the Gd(DTPA-HMD) polymer, and only two times higher than the usual values for small Gd-DTPA-like chelates. The low relaxivities obtained for both polymers, much lower than expected from the polymer apparent molecular weights, result from their substantial residual flexibility, and also from a too long, nonoptimal, value of the inner-sphere water exchange rate. These polymeric compounds are also cleared very quickly from the blood of rats, indicating that they are of limited value as blood pool contrast agents for MRA.
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- 2001
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5. Competition between Li+ and Mg2+ for the phosphate groups in the human erythrocyte membrane and ATP: An NMR and fluorescence study
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Carlos F. G. C. Geraldes, Qinfen Rong, Ravichandran Ramasamy, Louis Amari, Chandra Srinivasan, Duarte Mota de Freitas, Mary K. Boyd, and Aida Abraha
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Magnetic Resonance Spectroscopy ,Stereochemistry ,Phospholipid ,chemistry.chemical_element ,Fluorescence Polarization ,In Vitro Techniques ,Lithium ,Binding, Competitive ,Biochemistry ,Phosphates ,Metal ,chemistry.chemical_compound ,Adenosine Triphosphate ,medicine ,Humans ,Magnesium ,Aqueous solution ,Chemistry ,Erythrocyte Membrane ,Phosphate ,Red blood cell ,Membrane ,medicine.anatomical_structure ,visual_art ,visual_art.visual_art_medium ,Biophysics ,Intracellular - Abstract
We investigated the mechanism of competition between Li+ and Mg2+ in Li(+)-loaded human red blood cells (RBCs) by making 7Li and 31P NMR and fluorescence measurements. We used 7Li NMR relaxation times to probe Li+ binding to the human RBC membrane and ATP; an increase in Mg2+ concentration caused an increase in both 7Li T1 and T2 values in packed Li(+)-loaded RBCs, in suspensions of Li(+)-loaded RBC ghosts, in suspensions of Li(+)-containing RBC membrane, and in aqueous solutions of ATP, indicating competition between Li+ and Mg2+ for binding sites in the membrane and ATP. We found that increasing concentrations of either Li+ or Mg2+ in the presence of human RBC membrane caused an increase in the 31P NMR chemical shift anisotropy parameter, which describes the observed axially symmetric powder pattern, indicating metal ion binding to the phosphate groups in the membrane. Competition between Li+ and Mg2+ for phosphate groups in ATP and in the RBC membrane was also observed by both fluorescence measurements and 31P NMR spectroscopy at low temperature. The ratio of the stoichiometric binding constants of Mg2+ to Li+ to the RBC membrane was approximately 20; the ratio of the conditional binding constants in the presence of a free intracellular ATP concentration of 0.2 mM was approximately 4, indicating that Li+ competes for approximately 20% of the Mg(2+)-binding sites in the RBC membrane. Our results indicate that, regardless of the spectroscopic method used, Li+ competes with Mg2+ for phosphate groups in both ATP and the RBC membrane; the extent of metal ion competition for the phosphate head groups of the phospholipids in the RBC membrane is enhanced by the presence of ATP. Competition between Li+ and Mg2+ for anionic phospholipids or Mg(2+)-activated proteins present in cell membranes may constitute the basis of a general molecular mechanism for Li+ action in human tissues.
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- 1994
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6. Multinuclear magnetic resonance study of the structure and dynamics of lanthanide(III) complexes of the bis(propylamide) of diethylenetriaminepentaacetic acid in aqueous solution
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Ana M. Urbano, M. A. Hoefnagel, Joop A. Peters, and Carlos F. G. C. Geraldes
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Lanthanide ,Coordination sphere ,Chemistry ,Stereochemistry ,Ligand ,Nuclear magnetic resonance spectroscopy ,Carbon-13 NMR ,Inorganic Chemistry ,Crystallography ,chemistry.chemical_compound ,Diethylenetriamine ,Carboxylate ,Physical and Theoretical Chemistry ,Racemization - Abstract
The structure and dynamics of the lanthanide(III) complexes of the bis(propylamide) of diethylenetriaminepentaacetate (DTPA-PA[sub 2]) in aqueous solution have been investigated by [sup 13]C and [sup 17]O NMR. With the use of the longitudinal [sup 13]C relaxation times of the Nd[sup III] complex it is shown that the organic ligand is bound to the lanthanide(III) ion in an octadentate fashion via the three nitrogens of the diethyenetriamine backbone, the three carboxylate groups, and the two amide oxygens. [sup 17]O NMR measurements show that the coordination sphere is completed by one water ligand. The inversion of the lanthanide-bound nitrogens is precluded, and therefore four diastereomeric pairs of isomers are possible for these complexes. Low-temperature [sup 13]C NMR spectra show that all these isomers occur in solution. Three dynamic processes have been identified by means of variable-temperature NMR measurements: (i) rapid rotations of the carboxylate groups, (ii) racemization at the middle N atom via interconversions between the two possible conformations of the ethylene bridges, and (iii) racemization at the terminal N atoms of the diethylenetriamine backbone via decoordination-inversion-coordination. The barriers of the interconversions between the enantiomers have been determined by line-shape analysis and from coalescence temperatures. A comparison is made with themore » Ln[sup III] diethylenetriaminepentaacetate (DTPA) complexes.« less
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- 1993
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7. Effects of negatively charged shift reagents on red blood cell morphology, lithium ion transport, and membrane potential
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Duarte Mota de Freitas, Ravichandran Ramasamy, Warren Jones, Frederick Wezeman, Richard J. Labotka, and Carlos F. G. C. Geraldes
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Lanthanide ,Aqueous solution ,Ion exchange ,Inorganic chemistry ,chemistry.chemical_element ,Nuclear magnetic resonance spectroscopy ,Phosphinate ,Inorganic Chemistry ,Lithium ion transport ,chemistry.chemical_compound ,Thulium ,chemistry ,Carboxylate ,Physical and Theoretical Chemistry - Abstract
Lanthanide shift reagents have been used extensively in multinuclear magnetic resonance (NMR) applications in order to obtain information regarding ion distribution and transport in cellular systems. The aqueous reagents used in this study were Dy(PPP)J-, Tm( PPP)J-, Dy(TTHA)’-, Dy(PcPcP);-, and Dy(DOTP)’-, where Dy3+ and Tm3+ represent dysprosium and thulium ions and PPPs-, TTHA6-, PcPcPs-, and DOTP*- denote the triphosphate, triethylenetetraminehexaacetate, bis(dihydroxyphosphiny1- methyl)phosphinate, and I ,4,7,1 O-tetrazacyclododecane-N,N’,N”,N”’-tetrakis(methanephosphonate) ligands, respectively. The apparent size and shape of Li+-free RBCs (red blood cells), studied by both scanning electron microscopy and Coulter counter methods, were unchanged by the presence of the above shift reagents at concentrations lower than 10 mM. However, Li+ incubation changed both the shape and size of RBCs. The rates of Na+-Li+ exchange in Li+-loaded RBCs measured by 7Li NMR spectroscopy in the presence of Dy(PPP);-, TI~(PPP),~o-r, D~(PcPcP),~w-e re significantly higher than the rates measured in the absence of shift reagents by atomic absorption or in the presence of DY(TTHA)~o-r DY(DOTP)~b-y 7Li NMR spectroscopy. 31P and I9F NMR measurements of the membrane potential of Li+-free RBCs revealed that the shift reagents studied (except for Dy(TTHA)”) do change the membrane potential, with the most negatively charged reagents having the largest effect. Thus, shift reagents must be used with caution in physiological NMR studies and in particular RBC applications. http://dx.doi.org/10.1021/ic00345a014
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- 1990
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8. Synthesis, protonation sequence, and NMR studies of polyazamacrocyclic methylenephosphonates
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A. D. Sherry, W. P. Cacheris, and Carlos F. G. C. Geraldes
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Inorganic Chemistry ,Crystallography ,Aqueous solution ,Chemistry ,Stereochemistry ,Molecule ,Protonation constant ,Sequence (biology) ,Protonation ,Nuclear magnetic resonance spectroscopy ,Physical and Theoretical Chemistry - Abstract
Macroscopic and microscopic protonation of the title compounds (I)-(III), prepared by published methods, is studied using potentiometry and multinuclear magnetic resonance spectroscopy.
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- 1989
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9. Synthesis and characterization of the gadolinium(3+) complex of DOTA-propylamide: a model DOTA-protein conjugate
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Rodney D. Brown, A. Dean Sherry, Seymour H. Koenig, Marga Spiller, Kah Tiong Kuan, and Carlos F. G. C. Geraldes
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medicine.drug_class ,Stereochemistry ,Gadolinium ,chemistry.chemical_element ,Carboxamide ,Nuclear magnetic resonance spectroscopy ,Medicinal chemistry ,Inorganic Chemistry ,chemistry.chemical_compound ,Reaction rate constant ,chemistry ,medicine ,DOTA ,Chemical stability ,Carboxylate ,Physical and Theoretical Chemistry ,Conjugate - Abstract
Preparation et etude potentiometrique de la protonation. Determination de constantes de complexation et spectrometrie RMN
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- 1989
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