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3. Stabilization Improves Theranostic Properties of Lipiodol®-Based Emulsion During Liver Trans-arterial Chemo-embolization in a VX2 Rabbit Model.

Author

Deschamps, F., Farouil, G., Gonzalez, W., Robic, C., Paci, A., Mir, L., Tselikas, L., Baère, T., Mir, L M, and de Baère, T

Abstract

Purpose: To demonstrate that stability is a crucial parameter for theranostic properties of Lipiodol®-based emulsions during liver trans-arterial chemo-embolization.Materials and Methods: We compared the theranostic properties of two emulsions made of Lipiodol® and doxorubicin in two successive animal experiments (One VX2 tumour implanted in the left liver lobe of 30 rabbits). Emulsion-1 reproduced one of the most common way of preparation (ratio of oil/water: 1/1), and emulsion-2 was designed to obtain a water-in-oil emulsion with enhanced stability (ratio of oil/water: 3/1, plus an emulsifier). The first animal experiment compared the tumour selectivity of the two emulsions: seven rabbits received left hepatic arterial infusion (HAI) of emulsion-1 and eight received HAI of emulsion-2. 3D-CBCT acquisitions were acquired after HAI of every 0.1 mL to measure the densities' ratios between the tumours and the left liver lobes. The second animal experiment compared the plasmatic and tumour doxorubicin concentrations after HAI of 1.5 mg of doxorubicin administered either alone (n = 3) or in emulsion-1 (n = 6) or in emulsion-2 (n = 6).Results: Emulsion-2 resulted in densities' ratios between the tumours and the left liver lobes that were significantly higher compared to emulsion-1 (up to 0.4 mL infused). Plasmatic doxorubicin concentrations (at 5 min) were significantly lower after HAI of emulsion-2 (19.0 μg/L) than emulsion-1 (275.3 μg/L, p < 0.01) and doxorubicin alone (412.0 μg/L, p < 0.001), and tumour doxorubicin concentration (day-1) was significantly higher after HAI of emulsion-2 (20,957 ng/g) than in emulsion-1 (8093 ng/g, p < 0.05) and doxorubicin alone (2221 ng/g, p < 0.01).Conclusion: Stabilization of doxorubicin in a water-in-oil Lipiodol®-based emulsion results in better theranostic properties. [ABSTRACT FROM AUTHOR]

Published
2017
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4. Cellular interaction with Si- and Iron-based nanoparticles for bio-imaging. A study of biocompatibility (Conference Paper )

Author

Rivolta, I, D'Amato, R, Alexandrescu, R, Falconieri, M, Morjan, I, Chanana, M, Bouzas, V, Costo, R, Fabbri, F, Fleacé, C, Garcia, M, Gasco, P, Gonzalez, W, Morales, M, Nie, Y, Riccio, G, Robic, C, Sancini, G, Vivenza, N, Xu, H, Bello, V, Maurice, V, Sublemontier, O, Mattei, G, Herlin, N, Wang, D, Idee, J, Trave, E, Port, M, Veintemillas Verdaguer, S, Borsella, E, Miserocchi, G, Rivolta, IA, D'Amato, RB, Alexandrescu, RC, Falconieri, MB, Morjan, IC, Chanana, ME, Bouzas, VD, Costo, RF, Fabbri, FB, Fleacé, CC, Garcia, MAD, Gasco, PG, Gonzalez, WH, Morales, MPF, Nie, YE, Riccio, GG, Robic, CH, Idee, J. M, Miserocchi, G., SANCINI, GIULIO ALFREDO, Rivolta, I, D'Amato, R, Alexandrescu, R, Falconieri, M, Morjan, I, Chanana, M, Bouzas, V, Costo, R, Fabbri, F, Fleacé, C, Garcia, M, Gasco, P, Gonzalez, W, Morales, M, Nie, Y, Riccio, G, Robic, C, Sancini, G, Vivenza, N, Xu, H, Bello, V, Maurice, V, Sublemontier, O, Mattei, G, Herlin, N, Wang, D, Idee, J, Trave, E, Port, M, Veintemillas Verdaguer, S, Borsella, E, Miserocchi, G, Rivolta, IA, D'Amato, RB, Alexandrescu, RC, Falconieri, MB, Morjan, IC, Chanana, ME, Bouzas, VD, Costo, RF, Fabbri, FB, Fleacé, CC, Garcia, MAD, Gasco, PG, Gonzalez, WH, Morales, MPF, Nie, YE, Riccio, GG, Robic, CH, Idee, J. M, Miserocchi, G., and SANCINI, GIULIO ALFREDO

Abstract

The overall objective of BONSAI project (FP6, EC) is the development of ultrasensitive bio-imaging techniques based on novel multifunctional nanoparticles (NPs) with tailored optical and magnetic properties for visualizing complex cellular structures (in tissues and organs), receptors, tumour cells and masses. An important aspect to take into consideration involves the cellular responses to the impact of exogenous structures represented by NPs themselves. As a preliminary sign of reaction, we start to investigate the basic cytotoxicity

Published
2009

5. Advances in the preparation of novel functionalized nanoparticles for bioimaging

Author

D'Amato, R, Alexandrescu, R, Bello, V, Bouzas, V, Carmona, N, Chanana, M, Costo, R, Dumitrache, F, Fabbri, F, Falconieri, M, Garcia, M, Gasco, P, Gonzalez, W, Herlin, N, Maurice, V, Huisken, F, Idee, J, Loschenov, V, Mattei, G, Miserocchi, G, Morales, M, Morjan, I, Nie, Y, Port, M, Pustovoy, V, Riccio, G, Rivolta, I, Ryabova, A, Robic, C, Sancini, G, Sublemontier, O, Trave, E, Veintemillas Verdaguer, S, Vivenza, N, Wang, D, Xu, H, Borsella, E, Garcia, MA, Idee, JM, Morales, MP, RIVOLTA, ILARIA, Borsella, E., SANCINI, GIULIO ALFREDO, D'Amato, R, Alexandrescu, R, Bello, V, Bouzas, V, Carmona, N, Chanana, M, Costo, R, Dumitrache, F, Fabbri, F, Falconieri, M, Garcia, M, Gasco, P, Gonzalez, W, Herlin, N, Maurice, V, Huisken, F, Idee, J, Loschenov, V, Mattei, G, Miserocchi, G, Morales, M, Morjan, I, Nie, Y, Port, M, Pustovoy, V, Riccio, G, Rivolta, I, Ryabova, A, Robic, C, Sancini, G, Sublemontier, O, Trave, E, Veintemillas Verdaguer, S, Vivenza, N, Wang, D, Xu, H, Borsella, E, Garcia, MA, Idee, JM, Morales, MP, RIVOLTA, ILARIA, Borsella, E., and SANCINI, GIULIO ALFREDO

Abstract

The EC BONSAI Project intends to develop multifunctional nanoparticles with tailored optical and/or magnetic properties for visualizing complex cellular structures (in tissues and organs), receptors, tumor cells and masses. In this framework, here we will report on recent advances on the preparation of luminescent silicon nanoparticles, magnetic iron oxide nanoparticles and Au nanorods for bio-imaging applications

Published
2009

12. Advances in the preparation of novel functionalized nanoparticles for bioimaging

Author

Rosaria D'Amato, Alexandrescu, R., Bello, V., Bouzas, V., Carmona, N., Chanana, M., Costo, R., Dumitrache, F., Fabbri, F., Falconieri, M., Garcia, M. A., Gasco, P., Gonzalez, W., Herlin, N., Maurice, V., Huisken, F., Idee, J. M., Loschenov, V., Mattei, G., Miserocchi, G., Morales, M. P., Morjan, I., Nie, Y., Port, M., Pustovoy, V., Riccio, G., Rivolta, I., Ryabova, A., Robic, C., Sancini, G., Sublemontier, O., Trave, E., Veintemillas-Verdaguer, S., Vivenza, N., Wang, D., Xu, H., Borsella, E., D'Amato, R, Alexandrescu, R, Bello, V, Bouzas, V, Carmona, N, Chanana, M, Costo, R, Dumitrache, F, Fabbri, F, Falconieri, M, Garcia, M, Gasco, P, Gonzalez, W, Herlin, N, Maurice, V, Huisken, F, Idee, J, Loschenov, V, Mattei, G, Miserocchi, G, Morales, M, Morjan, I, Nie, Y, Port, M, Pustovoy, V, Riccio, G, Rivolta, I, Ryabova, A, Robic, C, Sancini, G, Sublemontier, O, Trave, E, Veintemillas Verdaguer, S, Vivenza, N, Wang, D, Xu, H, and Borsella, E

Subjects
Iron oxide nanoparticles, Au nanorod, BIO/09 - FISIOLOGIA, Au nanorods, iron oxide nanoparticle, Si nanoparticle, Si nanoparticles, Bioimaging
Abstract

The EC BONSAI Project intends to develop multifunctional nanoparticles with tailored optical and/or magnetic properties for visualizing complex cellular structures (in tissues and organs), receptors, tumor cells and masses. In this framework, here we will report on recent advances on the preparation of luminescent silicon nanoparticles, magnetic iron oxide nanoparticles and Au nanorods for bio-imaging applications

13. Cellular interaction with Si- and Iron-based nanoparticles for bio-imaging. A study of biocompatibility

Author

Rivolta, I., D Amato, R., Alexandrescu, R., Falconieri, M., Morjan, I., Chanana, M., Bouzas, V., Costo, R., Fabbri, F., Fleacé, C., Garcia, M. A., Gasco, P., Gonzalez, W., Maria del Puerto Morales, Nie, Y., Riccio, G., Robic, C., Sancini, G., Vivenza, N., Xu, H., Bello, V., Maurice, V., Sublemontier, O., Mattei, G., Herlin, N., Wang, D., Idee, J. M., Trave, E., Port, M., Veintemillas-Verdaguer, S., Borsella, E., and Miserocchi, G.

Subjects
Cellular interaction, Iron-based, Ultrasensitive, Bio-imaging, Cellular structure, Cellular response, Multi-functional nanoparticles, Tumour cells

14. Advances in the preparation of novel functionalized nanoparticles for bioimaging

Author

D Amato, R., Alexandrescu, R., Bello, V., Bouzas, V., Carmona, N., Chanana, M., Costo, R., Dumitrache, F., Fabbri, F., Falconieri, M., Garcia, M. A., Gasco, P., Gonzalez, W., Herlin, N., Maurice, V., Huisken, F., Idee, J. M., Loschenov, V., Mattei, G., Miserocchi, G., Morales, M. P., Morjan, I., Nie, Y., Port, M., Pustovoy, V., Riccio, G., Rivolta, I., Ryabova, A., Robic, C., Sancini, G., Sublemontier, O., Trave, E., Sabino Veintemillas-Verdaguer, Vivenza, N., Wang, D., Xu, H., Borsella, E., and IEEE

15. Cellular interaction with Si- and Iron-based nanoparticles for bio-imaging. A study of biocompatibility (Conference Paper )

Author

Rivolta, IA, D'Amato, RB, Alexandrescu, RC, Falconieri, MB, Morjan, IC, Chanana, ME, Bouzas, VD, Costo, RF, Fabbri, FB, Fleacé, CC, Garcia, MAD, Gasco, PG, Gonzalez, WH, Morales, MPF, Nie, YE, Riccio, GG, Robic, CH, Vivenza, N, Xu, H, Bello, V, Maurice, V, Sublemontier, O, Mattei, G, Herlin, N, Wang, D, Idee, J. M, Trave, E, Port, M, Veintemillas Verdaguer, S, Borsella, E, Miserocchi, G., SANCINI, GIULIO ALFREDO, Rivolta, I, D'Amato, R, Alexandrescu, R, Falconieri, M, Morjan, I, Chanana, M, Bouzas, V, Costo, R, Fabbri, F, Fleacé, C, Garcia, M, Gasco, P, Gonzalez, W, Morales, M, Nie, Y, Riccio, G, Robic, C, Sancini, G, Vivenza, N, Xu, H, Bello, V, Maurice, V, Sublemontier, O, Mattei, G, Herlin, N, Wang, D, Idee, J, Trave, E, Port, M, Veintemillas Verdaguer, S, Borsella, E, and Miserocchi, G

Subjects
Tumour cell, Cellular interaction, Iron-based, BIO/09 - FISIOLOGIA, Multi-functional nanoparticle, Ultrasensitive, Bio-imaging, Cellular structure, Cellular response
Abstract

The overall objective of BONSAI project (FP6, EC) is the development of ultrasensitive bio-imaging techniques based on novel multifunctional nanoparticles (NPs) with tailored optical and magnetic properties for visualizing complex cellular structures (in tissues and organs), receptors, tumour cells and masses. An important aspect to take into consideration involves the cellular responses to the impact of exogenous structures represented by NPs themselves. As a preliminary sign of reaction, we start to investigate the basic cytotoxicity

Published
2009

16. Physicochemical and Pharmacokinetic Profiles of Gadopiclenol: A New Macrocyclic Gadolinium Chelate With High T1 Relaxivity.

Author

Robic C, Port M, Rousseaux O, Louguet S, Fretellier N, Catoen S, Factor C, Le Greneur S, Medina C, Bourrinet P, Raynal I, Idée JM, and Corot C

Subjects
Blood, Humans, Magnetic Resonance Spectroscopy, Water, Azabicyclo Compounds pharmacokinetics, Contrast Media pharmacokinetics, Gadolinium pharmacokinetics
Abstract

Objectives: We aimed to evaluate gadopiclenol, a newly developed extracellular nonspecific macrocyclic gadolinium-based contrast agent (GBCA) having high relaxivity properties, which was designed to increase lesion detection and characterization by magnetic resonance imaging., Methods: We described the molecular structure of gadopiclenol and measured the r1 and r2 relaxivity properties at fields of 0.47 and 1.41 T in water and human serum. Nuclear magnetic relaxation dispersion profile measurements were performed from 0.24 mT to 7 T. Protonation and complexation constants were determined using pH-metric measurements, and we investigated the acid-assisted dissociation of gadopiclenol, gadodiamide, gadobutrol, and gadoterate at 37°C and pH 1.2. Applying the relaxometry technique (37°C, 0.47 T), we investigated the risk of dechelation of gadopiclenol, gadoterate, and gadodiamide in the presence of ZnCl2 (2.5 mM) and a phosphate buffer (335 mM). Pharmacokinetics studies of radiolabeled Gd-gadopiclenol were performed in Beagle dogs, and protein binding was measured in rats, dogs, and humans plasma and red blood cells., Results: Gadopiclenol [gadolinium chelate of 2,2',2″-(3,6,9-triaza-1(2,6)-pyridinacyclodecaphane-3,6,9-triyl)tris(5-((2,3-dihydroxypropyl)amino)-5-oxopentanoic acid); registry number 933983-75-6] is based on a pyclen macrocyclic structure. Gadopiclenol exhibited a very high relaxivity in water (r1 = 12.2 mM·s at 1.41 T), and the r1 value in human serum at 37°C did not markedly change with increasing field (r1 = 12.8 mM·s at 1.41 T and 11.6 mM·s at 3 T). The relaxivity data in human serum did not indicate protein binding. The nuclear magnetic relaxation dispersion profile of gadopiclenol exhibited a high and stable relaxivity in a strong magnetic field. Gadopiclenol showed high kinetic inertness under acidic conditions, with a dissociation half-life of 20 ± 3 days compared with 4 ± 0.5 days for gadoterate, 18 hours for gadobutrol, and less than 5 seconds for gadodiamide and gadopentetate. The pharmacokinetic profile in dogs was typical of extracellular nonspecific GBCAs, showing distribution in the extracellular compartment and no metabolism. No protein binding was found in rats, dogs, and humans., Conclusions: Gadopiclenol is a new extracellular and macrocyclic Gd chelate that exhibited high relaxivity, no protein binding, and high kinetic inertness. Its pharmacokinetic profile in dogs was similar to that of other extracellular nonspecific GBCAs.

Published
2019
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17. Design and properties of a novel radiopaque injectable apatitic calcium phosphate cement, suitable for image-guided implantation.

Author

Le Ferrec M, Mellier C, Boukhechba F, Le Corroller T, Guenoun D, Fayon F, Montouillout V, Despas C, Walcarius A, Massiot D, Lefèvre FX, Robic C, Scimeca JC, Bouler JM, and Bujoli B

Subjects
Animals, Humans, Male, Polymethyl Methacrylate chemistry, Polymethyl Methacrylate pharmacology, Rats, Rats, Inbred Lew, Apatites chemistry, Apatites pharmacology, Bone Cements chemistry, Bone Cements pharmacology, Contrast Media chemistry, Contrast Media pharmacology, Materials Testing, Spine diagnostic imaging, Spine surgery, Vertebroplasty methods
Abstract

An injectable purely apatitic calcium phosphate cement (CPC) was successfully combined to a water-soluble radiopaque agent (i.e., Xenetix ® ), to result in an optimized composition that was found to be as satisfactory as poly(methyl methacrylate) (PMMA) formulations used for vertebroplasty, in terms of radiopacity, texture and injectability. For that purpose, the Xenetix dosage in the cement paste was optimized by injection of the radiopaque CPC in human cadaveric vertebrae under classical PMMA vertebroplasty conditions, performed by interventional radiologists familiar with this surgical procedure. When present in the cement paste up to 70 mg I mL -1 , Xenetix did not influence the injectability, cohesion, and setting time of the resulting composite. After hardening of the material, the same observation was made regarding the microstructure, mechanical strength and alpha-tricalcium phosphate to calcium deficient apatite transformation rate. Upon implantation in bone in a small animal model (rat), the biocompatibility of the Xenetix-containing CPC was evidenced. Moreover, an almost quantitative release of the contrast agent was found to occur rapidly, on the basis of in vitro static and dynamic quantitative studies simulating in vivo implantation. © 2017 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 106B: 2786-2795, 2018., (© 2017 Wiley Periodicals, Inc.)

Published
2018
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18. Distribution profile of gadolinium in gadolinium chelate-treated renally-impaired rats: role of pharmaceutical formulation.

Author

Fretellier N, Salhi M, Schroeder J, Siegmund H, Chevalier T, Bruneval P, Jestin-Mayer G, Delaloge F, Factor C, Mayer JF, Fabicki JM, Robic C, Bonnemain B, Idée JM, and Corot C

Subjects
Animals, Chemistry, Pharmaceutical, Femur metabolism, Gadolinium blood, Heterocyclic Compounds blood, Kidney metabolism, Liver metabolism, Male, Myocardium metabolism, Organometallic Compounds blood, Rats, Wistar, Skin drug effects, Skin metabolism, Chelating Agents pharmacokinetics, Contrast Media pharmacokinetics, Gadolinium pharmacokinetics, Heterocyclic Compounds pharmacokinetics, Organometallic Compounds pharmacokinetics, Renal Insufficiency metabolism
Abstract

While not acutely toxic, chronic hepatic effect of certain gadolinium chelates (GC), used as contrast agent for magnetic resonance imaging, might represent a risk in renally-impaired patients due to free gadolinium accumulation in the liver. To answer this question, this study investigated the consequences of the presence of small amounts of either a soluble gadolinium salt ("free" Gd) or low-stability chelating impurity in the pharmaceutical solution of gadoteric acid, a macrocyclic GC with high thermodynamic and kinetic stabilities, were investigated in renally-impaired rats. Renal failure was induced by adding 0.75% adenine in the diet for three weeks. The pharmaceutical and commercial solution of gadoteric acid was administered (5 daily intravenous injections of 2.5 mmol Gd/kg) either alone or after being spiked with either "free" gadolinium (i.e., 0.04% w/v) or low-stability impurity (i.e., 0.06 w/v). Another GC, gadodiamide (low thermodynamic and kinetic stabilities) was given as its commercial solution at a similar dose. Non-chelated gadolinium was tested at two doses (0.005 and 0.01 mmol Gd/kg) as acetate salt. Gadodiamide induced systemic toxicity (mortality, severe epidermal and dermal lesions) and substantial tissue Gd retention. The addition of very low amounts of "free", non-chelated gadolinium or low thermodynamic stability impurity to the pharmaceutical solution of the thermodynamically stable GC gadoteric acid resulted in substantial capture of metal by the liver, similar to what was observed in "free" gadolinium salt-treated rats. Relaxometry studies strongly suggested the presence of free and soluble gadolinium in the liver. Electron microscopy examinations revealed the presence of free and insoluble gadolinium deposits in hepatocytes and Kupffer cells of rats treated with gadoteric acid solution spiked with low-stability impurity, free gadolinium and gadodiamide, but not in rats treated with the pharmaceutical solution of gadoteric acid. The presence of impurities in the GC pharmaceutical solution may have long-term biological consequences., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published
2015
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19. The role of gadolinium chelates in the mechanism of nephrogenic systemic fibrosis: A critical update.

Author

Idée JM, Fretellier N, Robic C, and Corot C

Subjects
Animals, Chelating Agents chemistry, Contrast Media chemistry, Disease Models, Animal, Fibrosis, Gadolinium chemistry, Humans, Magnetic Resonance Imaging, Nephrogenic Fibrosing Dermopathy chemically induced, Risk Factors, Gadolinium toxicity, Nephrogenic Fibrosing Dermopathy pathology
Abstract

Nephrogenic systemic fibrosis (NSF) is an iatrogenic scleroderma-like fibrosing systemic disorder occurring in patients with severe or end-stage renal disease. It was established as a new clinical entity in the year 2000. A causal role for gadolinium chelates (GC), widely used as contrast agents for magnetic resonance imaging, was suggested six years later. It rapidly appeared that the occurrence of NSF was associated with prior administration of GCs with lower thermodynamic stability, leading to warnings being published by health authorities and learned societies worldwide. Although a role for the chelated form of the less stable GCs has been proposed, the most commonly accepted hypothesis involves the gradual release of dissociated gadolinium in the body, leading to systemic fibrosis. However, the entire chain of events is still not fully understood in a causal way and many uncertainties remain.

Published
2014
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20. RGD decoration of PEGylated polyester nanocapsules of perfluorooctyl bromide for tumor imaging: influence of pre or post-functionalization on capsule morphology.

Author

Diou O, Fattal E, Delplace V, Mackiewicz N, Nicolas J, Mériaux S, Valette J, Robic C, and Tsapis N

Subjects
Animals, Cell Line, Tumor, Cryoelectron Microscopy, Female, Hydrocarbons, Brominated, Mice, Nude, Microscopy, Electron, Transmission, Neoplasms metabolism, Neoplasms pathology, Particle Size, Surface Properties, Contrast Media chemistry, Fluorine-19 Magnetic Resonance Imaging methods, Fluorocarbons chemistry, Nanocapsules chemistry, Neoplasms diagnosis, Oligopeptides chemistry, Polyethylene Glycols chemistry
Abstract

PEGylated polyester nanocapsules of perfluorooctyl bromide (PFOB) were surface-decorated with a RGD (arginine-glycine-aspartic acid) peptide by either pre-functionalization or post-functionalization strategies using carbodiimide-assisted chemistry. Both strategies allowed successful linkage of RGD at the surface of nanocapsules with up to 600-950 peptide units per nanocapsule without modifying the encapsulation efficacy of PFOB used as the (19)F MRI imaging moiety. Cryo-Transmission Electron Microscopy images evidence that slight changes of the polymer used to form the capsule shell strongly influence nanocapsule morphology. While, the use of copolymer blends induces the formation of acorn morphologies, PLA-b-PEG-COOH leads to elongated and "tears of wine"-like nanoconstructs. In vivo evaluation in mice bearing CT26 tumors by (19)F MRI reveals no significant difference of accumulation between PEGylated and RGD-decorated nanocapsules obtained by the post-functionalization approach (highest RGD density/capsule)., (Copyright © 2013 Elsevier B.V. All rights reserved.)

Published
2014
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21. In vivo CEST MR imaging of U87 mice brain tumor angiogenesis using targeted LipoCEST contrast agent at 7 T.

Author

Flament J, Geffroy F, Medina C, Robic C, Mayer JF, Mériaux S, Valette J, Robert P, Port M, Le Bihan D, Lethimonnier F, and Boumezbeur F

Subjects
Animals, Cell Line, Tumor, Magnetite Nanoparticles, Mice, Mice, Nude, Neoplasm Transplantation, Brain Neoplasms blood supply, Contrast Media, Liposomes, Magnetic Resonance Imaging methods, Neovascularization, Pathologic diagnosis
Abstract

LipoCEST are liposome-encapsulating paramagnetic contrast agents (CA) based on chemical exchange saturation transfer with applications in biomolecular MRI. Their attractive features include biocompatibility, subnanomolar sensitivity, and amenability to functionalization for targeting biomarkers. We demonstrate MR imaging using a targeted lipoCEST, injected intravenously. A lipoCEST carrying Tm(III)-complexes was conjugated to RGD tripeptide (RGD-lipoCEST), to target integrin α(ν)β(3) receptors involved in tumor angiogenesis and was compared with an unconjugated lipoCEST. Brain tumors were induced in athymic nude mice by intracerebral injection of U87MG cells and were imaged at 7 T after intravenous injection of either of the two contrast agents (n = 12 for each group). Chemical exchange saturation transfer-MSME sequence was applied over 2 h with an average acquisition time interval of 13.5 min. The chemical exchange saturation transfer signal was ∼1% in the tumor and controlateral regions, and decreased to ∼0.3% after 2 h; while RGD-lipoCEST signal was ∼1.4% in the tumor region and persisted for up to 2 h. Immunohistochemical staining revealed a persistent colocalization of RGD-lipoCEST with α(ν)β(3) receptors in the tumor region. These results constitute an encouraging step toward in vivo MRI imaging of tumor angiogenesis using intravenously injected lipoCEST., (Copyright © 2012 Wiley Periodicals, Inc.)

Published
2013
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22. Hindered diffusion of MRI contrast agents in rat brain extracellular micro-environment assessed by acquisition of dynamic T1 and T2 maps.

Author

Marty B, Djemaï B, Robic C, Port M, Robert P, Valette J, Boumezbeur F, Le Bihan D, Lethimonnier F, and Mériaux S

Subjects
Animals, Biomarkers metabolism, Brain physiology, Brain Mapping methods, Male, Radiography, Rats, Rats, Sprague-Dawley, Time Factors, Brain diagnostic imaging, Contrast Media pharmacology, Diffusion Magnetic Resonance Imaging methods
Abstract

The knowledge of brain tissues characteristics (such as extracellular space and tortuosity) represents valuable information for the design of optimal MR probes for specific biomarkers targeting. This work proposes a methodology based on dynamic acquisition of relaxation time maps to quantify in vivo MRI contrast agent concentration after intra-cerebral injection in rat brain. It was applied to estimate the hindered diffusion in brain tissues of five contrast agents with different hydrodynamic diameters (Dotarem(®) ≈ 1 nm, P846 ≈ 4 nm, P792 ≈ 7 nm, P904 ≈ 22 nm and Gd-based emulsion ≈ 170 nm). In vivo apparent diffusion coefficients were compared with those estimated in an obstacle-free medium to determine brain extracellular space and tortuosity. At a 2 h imaging timescale, all contrast agents except the Gd-based emulsion exhibited significant diffusion through brain tissues, with characteristic times compatible with MR molecular imaging (<70 min to diffuse between two capillaries). In conclusion, our experiments indicate that MRI contrast agents with sizes up to 22 nm can be used to perform molecular imaging on intra-cerebral biomarkers. Our quantification methodology allows a precise estimation of apparent diffusion coefficients, which is helpful to calibrate optimal timing between contrast agent injection and MRI observation for molecular imaging studies., (Copyright © 2012 John Wiley & Sons, Ltd.)

Published
2013
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23. 19F molecular MR imaging for detection of brain tumor angiogenesis: in vivo validation using targeted PFOB nanoparticles.

Author

Giraudeau C, Geffroy F, Mériaux S, Boumezbeur F, Robert P, Port M, Robic C, Le Bihan D, Lethimonnier F, and Valette J

Subjects
Animals, Brain Neoplasms pathology, Cell Line, Tumor, Humans, Hydrocarbons, Brominated, Injections, Mice, Microscopy, Fluorescence, Neovascularization, Pathologic, Oligopeptides, Reproducibility of Results, Xenograft Model Antitumor Assays, Brain Neoplasms blood supply, Brain Neoplasms diagnosis, Fluorine, Fluorocarbons administration & dosage, Magnetic Resonance Imaging, Molecular Imaging, Nanoparticles
Abstract

Molecular imaging with magnetic resonance imaging (MRI) targeted contrast agents has emerged as a promising diagnostic approach in cancer research to detect associated biomarkers. In this work, the potential of (19)F MRI was investigated to detect angiogenesis with α(ν)β(3)-targeted perfluorooctylbromide nanoparticles (PFOB NP) in a U87 glioblastoma mouse model at 7 Tesla. Mice were injected intravenously with targeted or non-targeted NP and (19)F images were immediately acquired for 90 min using a PFOB-dedicated MRI sequence. Mice infused with targeted NP exhibited higher concentrations in tumors than mice of the control group, despite the presence of nonspecific signal originating from the blood. Imaging results were corroborated by histology and fluorescence imaging, suggesting specific binding of targeted NP to α(ν)β(3) integrin. Two other groups of mice were injected 24 h before imaging to allow blood clearance but no significant differences were found between both groups, probably due to a loss of specificity of PFOB NP. This is the first demonstration of the ability of (19)F MRI to detect α(ν)β(3)-integrin endothelial expression in brain tumors in vivo.

Published
2013
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24. Dynamic study of blood-brain barrier closure after its disruption using ultrasound: a quantitative analysis.

Author

Marty B, Larrat B, Van Landeghem M, Robic C, Robert P, Port M, Le Bihan D, Pernot M, Tanter M, Lethimonnier F, and Mériaux S

Subjects
Animals, Blood-Brain Barrier cytology, Contrast Media chemistry, Drug Delivery Systems, Endothelial Cells cytology, Endothelial Cells radiation effects, Male, Models, Biological, Rats, Rats, Sprague-Dawley, Sound, Blood-Brain Barrier metabolism, Blood-Brain Barrier radiation effects, Contrast Media pharmacokinetics, Magnetic Resonance Imaging
Abstract

Delivery of therapeutic or diagnostic agents to the brain is majorly hindered by the blood-brain barrier (BBB). Recently, many studies have demonstrated local and transient disruption of the BBB using low power ultrasound sonication combined with intravascular microbubbles. However, BBB opening and closure mechanisms are poorly understood, especially the maximum gap that may be safely generated between endothelial cells and the duration of opening of the BBB. Here, we studied BBB opening and closure under magnetic resonance (MR) guidance in a rat model. First, MR contrast agents (CA) of different hydrodynamic diameters (1 to 65 nm) were employed to estimate the largest molecular size permissible across the cerebral tissues. Second, to estimate the duration of the BBB opening, the CA were injected at various times post-BBB disruption (12 minutes to 24 hours). A T(1) mapping strategy was developed to assess CA concentration at the ultrasound (US) focal point. Based on our experimental data and BBB closure modeling, a calibration curve was obtained to compute the half closure time as a function of CA hydrodynamic diameter. These findings and the model provide an invaluable basis for optimal design and delivery of nanoparticles to the brain.

Published
2012
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25. High sensitivity 19F MRI of a perfluorooctyl bromide emulsion: application to a dynamic biodistribution study and oxygen tension mapping in the mouse liver and spleen.

Author

Giraudeau C, Djemaï B, Ghaly MA, Boumezbeur F, Mériaux S, Robert P, Port M, Robic C, Le Bihan D, Lethimonnier F, and Valette J

Subjects
Animals, Emulsions administration & dosage, Fluorine, Hydrocarbons, Brominated, Injections, Intravenous, Metabolic Clearance Rate, Mice, Organ Specificity, Reproducibility of Results, Sensitivity and Specificity, Tissue Distribution, Fluorocarbons administration & dosage, Liver anatomy & histology, Liver metabolism, Magnetic Resonance Imaging methods, Oxygen metabolism, Spleen anatomy & histology, Spleen metabolism
Abstract

We have recently developed an optimized multi-spin echo (MSE) sequence dedicated to perfluorooctyl bromide (PFOB) imaging yielding an excellent sensitivity in vitro. The aim of the present study was to apply this sequence to quantitative measurements in the mouse liver and spleen after intravenous (i.v.) injection of PFOB emulsions. We first performed oxygenation maps 25.5 min after a single infusion of emulsion and, contrary to previous studies, shortly after injection. The signal-to-noise ratio (SNR) in the liver and spleen was as high as 45 and 120, respectively, for 3-min images with 11.7-μL pixels. Values of oxygen tension tended to be slightly higher in the spleen than in the liver. Dynamic biodistribution experiments were then performed immediately after intravenous (i.v.) injection of PFOB emulsions grafted with different quantities of polyethylene glycol (PEG) for stealth. Images were acquired every 7 min for 84 min and the SNR measured in the liver and spleen was at least four from the first time point. Uptake rates could be assessed for each PEG amount and, in spite of high standard deviations (SDs) owing to interanimal variability, our data confirmed that increasing quantities of PEG allow more gradual uptake of the emulsion particles by the liver and spleen. In conclusion, our method seems to be a powerful tool to non-invasively perform accurate in vivo quantitative measurements in the liver and spleen using (19)F MRI., (Copyright © 2011 John Wiley & Sons, Ltd.)

Published
2012
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26. Ultrasmall iron oxide nanoparticles for biomedical applications: improving the colloidal and magnetic properties.

Author

Costo R, Bello V, Robic C, Port M, Marco JF, Puerto Morales M, and Veintemillas-Verdaguer S

Subjects
Microscopy, Electron, Transmission, Powder Diffraction, Water, Colloids, Ferric Compounds chemistry, Magnetics, Metal Nanoparticles
Abstract

A considerable increase in the saturation magnetization, M(s) (40%), and initial susceptibility of ultrasmall (<5 nm) iron oxide nanoparticles prepared by laser pyrolysis was obtained through an optimized acid treatment. Moreover, a significant enhancement in the colloidal properties, such as smaller aggregate sizes in aqueous media and increased surface charge densities, was found after this chemical protocol. The results are consistent with a reduction in nanoparticle surface disorder induced by a dissolution-recrystallization mechanism.

Published
2012
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27. The role of phosphate on Omniscan(®) dechelation: an in vitro relaxivity study at pH 7.

Author

Robic C, Catoen S, De Goltstein MC, Idée JM, and Port M

Subjects
Catalysis, Hydrogen-Ion Concentration, Kinetics, Molecular Structure, Nephrogenic Fibrosing Dermopathy chemically induced, Chelating Agents chemistry, Gadolinium DTPA chemistry, Phosphates chemistry
Abstract

Nephrogenic systemic fibrosis (NSF), a disease occurring in patients with severe renal failure, may be linked to injections of gadolinium chelates, contrast agents used for magnetic resonance imaging. A hypothesis frequently proposed to explain NSF is dissociation of Gd(3+) from its chelate, possibly from a deep storage compartment. Numerous in vivo and in vitro studies have been performed in an attempt to determine the extent of this dechelation and to understand its mechanism. Proton-assisted dechelation and transmetallation are the most widely described mechanisms of dechelation. This study investigated the possible ligand exchange role played by phosphate in the dechelation mechanism. Omniscan(®) dechelation was monitored in vitro by relaxivity measurements performed at physiological pH with different concentrations of phosphate buffer and in the presence of endogenous cations. Dechelation experiments performed on phosphate buffer alone showed that phosphate may induce gadolinium release by ligand exchange when the phosphate concentration in the buffer is higher than 130 mM for an Omniscan(®) concentration of 1.25 mM. This corresponds to a Gd/phosphate ratio of 10(-2). This ratio could be reached in vivo, especially in deep compartments such as bone. The presence of endogenous cations (Zn(2+), Cu(2+) or Ca(2+)) has also been demonstrated to accelerate the kinetics of gadolinium release, either by catalysing ligand exchange or by inducing a transmetallation mechanism. The Omniscan(®) formulation was also tested and the added Ca-DTPA-BMA was shown to increase dechelation kinetics in these experiments. This striking result may question the value of the Omniscan(®) formulation in the context of NSF.

Published
2011
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28. Clinical, biological, and skin histopathologic effects of ionic macrocyclic and nonionic linear gadolinium chelates in a rat model of nephrogenic systemic fibrosis.

Author

Fretellier N, Idée JM, Guerret S, Hollenbeck C, Hartmann D, González W, Robic C, Port M, and Corot C

Subjects
Animals, Antigens, CD34 analysis, C-Reactive Protein analysis, Disease Models, Animal, Male, Nephrectomy, Nephrogenic Fibrosing Dermopathy pathology, Nephrogenic Fibrosing Dermopathy surgery, Rats, Chelating Agents, Gadolinium, Nephrogenic Fibrosing Dermopathy diagnosis
Abstract

Objective: the purpose of this study was to compare the clinical, pathologic, and biochemical effects of repeated administrations of ionic macrocyclic or nonionic linear gadolinium chelates (GC) in rats with impaired renal function., Material and Methods: rats submitted to subtotal nephrectomy were allocated to single injections of 2.5 mmol/kg of gadodiamide (nonionic linear chelate), nonformulated gadodiamide (ie, without the free ligand caldiamide), gadoterate (ionic macrocyclic chelate), or saline for 5 consecutive days. Blinded semi-quantitative histopathologic and immunohistochemical examinations of the skin were performed, as well as clinical, hematological, and biochemical follow-up. Rats were killed at day 11. Long-term (up to day 32) follow-up of rats was also performed in an auxiliary study., Results: epidermal lesions (ulcerations and scabs) were found in 4 of the 10 rats treated with nonformulated gadodiamide. Two rats survived the study period. Inflammatory signs were observed in this group. No clinical, hematological, or biochemical signs were observed in the saline and gadoterate- or gadodiamide-treated groups. Plasma fibroblast growth factor-23 levels were significantly higher in the gadodiamide group than in the gadoterate group (day 11). Decreased plasma transferrin-bound iron levels were measured in the nonformulated gadodiamide group. Histologic lesions were in the range: nonformulated gadodiamide (superficial epidermal lesions, inflammation, necrosis, and increased cellularity in papillary dermis) > gadodiamide (small superficial epidermal lesions and signs of degradation of collagen fibers in the dermis) > gadoterate (very few pathologic lesions, similar to control rats)., Conclusions: repeated administration of the nonionic linear GC gadodiamide to renally impaired rats is associated with more severe histologic lesions and higher FGF-23 plasma levels than the macrocyclic GC gadoterate.

Published
2011
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29. Transmission electron microscopy of lipid vesicles for drug delivery: comparison between positive and negative staining.

Author

Bello V, Mattei G, Mazzoldi P, Vivenza N, Gasco P, Idee JM, Robic C, and Borsella E

Subjects
Drug Delivery Systems, Lipids, Nanoparticles, Microscopy, Electron, Transmission methods, Staining and Labeling methods
Abstract

Lipid-containing nanostructures, in the form of solid lipid nanoparticles or iron oxide nanoparticles (NPs) coated with a lipid shell, were used as case studies for assessing and optimizing staining for transmission electron microscopy structural and compositional characterization. These systems are of paramount importance as drug delivery systems or as bio-compatible contrast agents. In particular, we have treated the systems with a negative (phospshotungstic acid) or with a positive (osmium tetroxide) staining agent. For iron-oxide NPs coated with the lipid shell, negative staining was more efficient with respect to the positive one. Nevertheless, in particular cases the combination of the two staining procedures provided more complete morphological and compositional characterization of the particles.

Published
2010
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30. A new paradigm for high-sensitivity 19F magnetic resonance imaging of perfluorooctylbromide.

Author

Giraudeau C, Flament J, Marty B, Boumezbeur F, Mériaux S, Robic C, Port M, Tsapis N, Fattal E, Giacomini E, Lethimonnier F, Le Bihan D, and Valette J

Subjects
Fluorine, Hydrocarbons, Brominated, Image Enhancement methods, Phantoms, Imaging, Sensitivity and Specificity, Contrast Media chemistry, Fluorocarbons chemistry, Magnetic Resonance Imaging methods
Abstract

In the present work, the NMR properties of perfluorooctylbromide are revisited to derive a high-sensitivity fluorine MRI strategy. It is shown that the harmful effects of J-coupling can be eliminated by carefully choosing the bandwidth of the 180 degrees pulses in a spin-echo sequence. The T(2) of the CF(3) resonance of the molecule is measured using a multispin-echo sequence and shown to dramatically depend on the interpulse delay. Following these observations, an optimized multispin-echo imaging sequence is derived and compared with short TE/pulse repetition time gradient echo and chemical shift imaging sequences. The unparalleled sensitivity yielded by the multispin-echo sequence is promising for future applications, in particular for targeted contrast agents such as perfluorooctylbromide nanoparticles.

Published
2010
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31. [Assessment of the management of acute otitis media in children by family practitioners in the North of France].

Author

Ganga-Zandzou PS, Fermantel A, Robic C, Pouessel G, Pierre MH, Bourgois B, Cixous E, and Ythier H

Subjects
Acute Disease, Adult, Child, Preschool, Drug Administration Schedule, Family Practice, Female, France, Health Surveys, Humans, Infant, Male, Middle Aged, Otitis Media diagnosis, Pediatrics, Anti-Bacterial Agents therapeutic use, Guideline Adherence statistics & numerical data, Otitis Media drug therapy
Abstract

Objectives: To assess the management of acute otitis media in children by paediatricians and general practitioners in the North of France compared with the AFSSAPS (Agence Française de Sécurité Sanitaire des Produits de Santé) guideline's recommendations of 2005., Methodology: All eligible family paediatricians (n=68) and a group of general practitioners (n=200) first received a phone call invitation to participate to the study. The volunteers responded to a questionnaire by phone call., Results: The response rates were 67, 6 % for the group of paediatricians and 64, 5 % for the group of general practitioners. The guideline's recommendations were followed by respectively 28, 3 % and 9, 3 % of primary care physicians. The observation option, recommended in children aged more than 2 years, was followed by 46, 5 % of general practitioners and 54, 3 % of paediatricians. The durations of antibiotics were poorly respected by the 2 groups of physicians. In case of allergy to penicillin, the paediatricians followed more the recommendations than the general practitioners., Conclusion: Educational interventions are needed in order to improve the adherence to guidelines of paediatricians and general practitioners for the management of acute otitis media in children.

Published
2009
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32. Role of thermodynamic and kinetic parameters in gadolinium chelate stability.

Author

Idée JM, Port M, Robic C, Medina C, Sabatou M, and Corot C

Subjects
Animals, Chelating Agents adverse effects, Chelating Agents chemistry, Chelating Agents pharmacokinetics, Contrast Media adverse effects, Drug Stability, Gadolinium adverse effects, Humans, Kidney drug effects, Kinetics, Magnetic Resonance Imaging adverse effects, Metabolic Clearance Rate, Nephrogenic Fibrosing Dermopathy chemically induced, Nephrogenic Fibrosing Dermopathy metabolism, Organ Specificity, Thermodynamics, Tissue Distribution, Contrast Media chemistry, Contrast Media pharmacokinetics, Gadolinium chemistry, Gadolinium pharmacokinetics, Kidney metabolism
Abstract

In recent years there has been a renewed interest in the physicochemical properties of gadolinium chelates (GC). The aim of this review is to discuss the physicochemical properties of marketed GC with regard to possible biological consequences. GC can be classified according to three key molecular features: 1) the nature of the chelating moiety: either macrocyclic molecules in which Gd(3+) is caged in the preorganized cavity of the ligand, or linear, open-chain molecules; 2) ionicity: the ionicity of the molecule varies from neutral to tri-anionic agents; and 3) the presence or absence of an aromatic lipophilic moiety, which has a profound impact on the biodistribution of the GC. These parameters can also explain why GC differ considerably with regard to their thermodynamic stability constants and kinetic stability, as demonstrated by numerous studies. The concept of thermodynamic and kinetic stability is critically discussed, as it remains somewhat controversial, especially in predicting the amount of free gadolinium that may result from decomplexation of chelates in physiologic or pathologic situations. This review examines the possibility that the high kinetic stability provided by the macrocyclic structure combined with a high thermodynamic stability (reinforced by ionicity for macrocyclic chelates) can minimize the amount of free Gd(3+) released in the body. J. Magn. Reson. Imaging 2009;30:1249-1258. (c) 2009 Wiley-Liss, Inc.

Published
2009
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33. Effect of nanoparticle and aggregate size on the relaxometric properties of MR contrast agents based on high quality magnetite nanoparticles.

Author

Roca AG, Veintemillas-Verdaguer S, Port M, Robic C, Serna CJ, and Morales MP

Abstract

Colloidal dispersions of monodispersed and high-crystalline magnetite nanoparticles have been used to establish a relationship between magnetic properties and magnetic resonance (MR) relaxometric parameters in vitro. Magnetite nanoparticles with diameters between 4 and 14 nm were synthesized by thermal decomposition of Fe(acac)3 in different organic solvents and transformed to hydrophilic by changing oleic acid for dimercaptosuccinic acid (DMSA). A final treatment in alkaline water was critical to make the suspension stable at pH 7 with xi-potential values of -45 mV and hydrodynamic sizes as low as 50 nm. Samples showed superparamagnetic behavior at room temperature, which is an important parameter for biomedical applications. Susceptibility increased with both particle and aggregate size, and for particles larger than 9 nm, the aggregate size was the key factor controlling the susceptibility. Relaxivity values followed the same trend as the suspension susceptibilities, indicating that the aggregate size is an important factor above a certain particle size governing the proton relaxation times. The highest relaxivity value, r2=317 s(-1) mM(-1), much higher than those for commercial contrast agents with similar hydrodynamic size, was obtained for a suspension consisting of 9 nm particles and 70 nm of hydrodynamic size, and it was assigned to the higher particle crystallinity in comparison to particles prepared by coprecipitation. Therefore, it can be concluded that in addition to the sample crystallinity, both particle size and aggregate size should be considered in order to explain the magnetic and relaxivity values of a suspension.

Published
2009
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34. Efficiency, thermodynamic and kinetic stability of marketed gadolinium chelates and their possible clinical consequences: a critical review.

Author

Port M, Idée JM, Medina C, Robic C, Sabatou M, and Corot C

Subjects
Kinetics, Magnetic Resonance Imaging, Molecular Structure, Osmolar Concentration, Thermodynamics, Viscosity, Chelating Agents chemistry, Contrast Media chemistry, Gadolinium chemistry, Gadolinium DTPA chemistry
Abstract

Gadolinium-based contrast agents are widely used to enhance image contrast in magnetic resonance imaging (MRI) procedures. Over recent years, there has been a renewed interest in the physicochemical properties of gadolinium chelates used as contrast agents for MRI procedures, as it has been suggested that dechelation of these molecules could be involved in the mechanism of a recently described disease, namely nephrogenic systemic fibrosis (NSF). The aim of this paper is to discuss the structure-physicochemical properties relationships of marketed gadolinium chelates in regards to their biological consequences. Marketed gadolinium chelates can be classified according to key molecular design parameters: (a) nature of the chelating moiety: macrocyclic molecules in which Gd3+ is caged in the pre-organized cavity of the ligand, or linear open-chain molecules, (b) ionicity: the ionicity of the complex varies from neutral to tri-anionic agents, and (c) the presence or absence of an aromatic lipophilic residue responsible for protein binding. All these molecular characteristics have a profound impact on the physicochemical characteristics of the pharmaceutical solution such as osmolality, viscosity but also on their efficiency in relaxing water protons (relaxivity) and their biodistribution. These key molecular parameters can also explain why gadolinium chelates differ in terms of their thermodynamic stability constants and kinetic stability, as demonstrated by numerous in vitro and in vivo studies, resulting in various formulations of pharmaceutical solutions of marketed contrast agents. The concept of kinetic and thermodynamic stability is critically discussed as it remains a somewhat controversial topic, especially in predicting the amount of free gadolinium which may result from dechelation of chelates in physiological or pathological situations. A high kinetic stability provided by the macrocyclic structure combined with a high thermodynamic stability (reinforced by ionicity for macrocyclic chelates) will minimize the amount of free gadolinium released in tissue parenchymas.

Published
2008
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35. Magnetic iron oxide nanoparticles: synthesis, stabilization, vectorization, physicochemical characterizations, and biological applications.

Author

Laurent S, Forge D, Port M, Roch A, Robic C, Vander Elst L, and Muller RN

Subjects
Chemical Phenomena, Chemistry, Physical, Drug Delivery Systems, Humans, Magnetic Resonance Imaging methods, Contrast Media chemical synthesis, Contrast Media chemistry, Ferrosoferric Oxide administration & dosage, Ferrosoferric Oxide chemistry, Magnetics, Nanoparticles chemistry
Published
2008
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36. Colloidal stability of ultrasmall superparamagnetic iron oxide (USPIO) particles with different coatings.

Author

Di Marco M, Guilbert I, Port M, Robic C, Couvreur P, and Dubernet C

Subjects
Coated Materials, Biocompatible chemistry, Dextrans, Electrophoresis, Ferrosoferric Oxide, Light, Magnetite Nanoparticles, Osmolar Concentration, Particle Size, Polyethylene Glycols, Scattering, Radiation, Sodium Chloride, Colloids chemistry, Drug Stability, Iron chemistry, Oxides chemistry
Abstract

Ultrasmall superparamagnetic iron oxide (USPIO) particles are efficient contrast agents used in vivo to enhance relaxation differences between healthy and pathological tissues. Detailed understanding of their physicochemical properties in suspension is necessary to guarantee the quality and safety of biological USPIO particles application. The ferrofluids stability against aggregation and gravitational settling affects their biodistribution and consequently the resulting contrast. In this study, the stability of iron oxide particles was investigated by dynamic light scattering (DLS) at different NaCl concentrations in order to monitor the evolution of the hydrodynamic radius of the particles with time. The results were interpreted using the classical DLVO theory of colloidal stability. The electrophoretic mobility and the models generally used to convert it to zeta potential were discussed and related to the stability results.

Published
2007
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37. Identification of nonmonotonic behaviors and stick-slip transition in liquid crystal polymers.

Author

Pujolle-Robic C and Noirez L

Abstract

The recent identification of shear-induced phases in the isotropic melts of liquid crystal polymers shows that these materials are expected to display original nonlinear behaviors. We have investigated the flow behavior of a nematic sidechain polymer above its isotropic-nematic transition temperature. Nonlinear rheology and birefringence measurements indicate the appearance, above a critical shear rate, of the shear-induced isotropic-nematic phase transition. The rheological behavior of this induced phase is characterized by undamped time-periodic shear stress oscillations. These sustained oscillations are interpreted in terms of a stick-slip mechanism alternating high-friction static state and low-friction kinetic state.

Published
2003
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38. Observation of shear-induced nematic-isotropic transition in side-chain liquid crystal polymers.

Author

Pujolle-Robic C and Noirez L

Abstract

Flow-induced phase transitions are a fundamental (but poorly understood) property of non-equilibrium systems, and are also of practical importance for tuning the processing conditions for plastics, petroleum products, and other related materials. Recognition that polymers may exhibit liquid crystal properties has led to the discovery of the first tailored side-chain liquid crystal polymers (SCLCPs), which are formed by inserting a spacer between the main polymer chain and the lateral mesogen liquid-crystalline graftings. Subsequent research has sought to understand the nature of the coupling between the main polymer chain and the mesogens, with a view to obtaining better control of the properties of these tailored structures. We show here that the parallel or perpendicular orientation of the mesogens with respect to the main chain can be reversed by the application of an external field produced by a shear flow, demonstrating the existence of an isotropic nematic phase transition in SCLCPs. Such a transition, which was theoretically predicted for low-molecular-weight liquid crystals but never observed, is shown to be a general property of SCLCPs too. We expect that these SCLCPs will prove to be good candidate systems for the experimental study of these non-equilibrium phenomena.

Published
2001
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