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ABSTRACT: In this study we investigated the potential of mucoadhesive nanoparticles to enhance the intestinal permeability of docetaxel (Dtx). These nanoparticles were composed of methyl-β-cyclodextrin (Me-β-CD) combined with poly(isobutylcyanoacrylate) and coated with thiolated chitosan. In order to encapsulate the highest amount of Dtx into nanoparticles, the anionic emulsion polymerization of isobutylcyanoacrylate was carried out in a solution of Me-β-CD/Dtx inclusion complex. The resulting nanoparticles were spherical with diameters ranging from 200 to 400nm, and positively charged. Depending on the formulation, the encapsulation efficiency of Dtx was 70-80%. In vitro experiments in simulated intestinal medium containing 1% w/v of pancreatin showed that Dtx was gradually released to reach 60% after 24h and 100% after 48h. The capacity of these nanoparticles to enhance the flux of Dtx across the intestinal membrane was then investigated using the Ussing chamber technique. The intestinal permeation of Dtx loaded into nanoparticles was found to be higher than the ethanol control solution of Dtx. Interestingly, when mucoadhesive interactions between nanoparticles and the mucosa were avoided, the intestinal permeation of Dtx significantly decreased, confirming that the mucoadhesion of the nanoparticles was a mandatory condition to enhance the intestinal permeation of Dtx.
Journal of Controlled Release 08/2012; 162(3):568-74. · 5.73 Impact Factor
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ABSTRACT: PLGA-PEG nanocapsules containing a liquid core of perfluorooctyl bromide were synthesized by an emulsion-evaporation process and designed as contrast agents for (19)F MRI. Physico-chemical properties of plain and PEGylated nanocapsules were compared. The encapsulation efficiency of PFOB, estimated by (19)F NMR spectroscopy, is enhanced when using PLGA-PEG instead of PLGA. PLGA-PEG nanocapsule diameter, measured by Dynamic Light Scattering is around 120 nm, in agreement with Transmission Electron microscopy (TEM) observations. TEM and Scanning Electron Microscopy (SEM) reveal that spherical core-shell morphology is preserved. PEGylation is further confirmed by Zeta potential measurements and X-ray Photoelectron Spectroscopy. In vitro, stealthiness of the PEGylated nanocapsules is evidenced by weak complement activation. Accumulation kinetics in the liver and the spleen was performed by (19)F MRI in mice, during the first 90 min after intravenous injection. In the liver, plain nanocapsules accumulate faster than their PEGylated counterparts. We observe PEGylated nanocapsule accumulation in CT26 xenograft tumor 7 h after administration to mice, whereas plain nanocapsules remain undetectable, using (19)F MRI. Our results validate the use of diblock copolymers for PEGylation to increase the residence time of nanocapsules in the blood stream and to reach tumors by the Enhanced Permeation and Retention (EPR) effect.
Biomaterials 05/2012; 33(22):5593-602. · 7.40 Impact Factor
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ABSTRACT: Recent reports showed that subtle modifications of nanoparticle surface properties induced dramatic changes of interactions with serum proteins. The present work was aimed to investigate the effect of the conformation of dextran chains decorating the surface of poly(alkylcyanoacrylate) (PACA) nanoparticles on the pharmacokinetic and biodistribution of a model drug associated with the nanoparticles. Doxorubicin was associated with PACA nanoparticles prepared by anionic emulsion polymerization (AEP) (Dox-AEP) and redox radical emulsion polymerization (RREP) (Dox-RREP). Nanoparticles and the free drug (f-Dox) were injected intravenously to rats to determine the pharmacokinetic and biodistribution of doxorubicin. Curves of the pharmacokinetics showed a rapid phase of distribution followed by a slower elimination phase. Pharmacokinetic parameters of the distribution phase determined for the Dox-RREP were significantly different from those of f-Dox and Dox-AEP, while no difference was observed in the elimination phase of the three formulations. Rats treated with Dox-RREP showed lower Dox concentrations in liver but higher concentrations in heart, lungs, and kidneys compared to those treated with the other formulations. Dox-RREP exhibited a new type of stealth behavior characterized by a short circulation time and a rapid distribution in highly vascularized organs bypassing the MPS. The difference in pharmacokinetic and biodistribution observed between the drugs formulated with the two types of nanoparticles was attributed to the difference in the conformation of the dextran chains stranded on the nanoparticle surface.
European journal of pharmaceutics and biopharmaceutics: official journal of Arbeitsgemeinschaft fur Pharmazeutische Verfahrenstechnik e.V 03/2012; 81(2):453-7. · 3.15 Impact Factor
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ABSTRACT: The long-term clinical use of doxorubicin (Dox), one of the most important anticancer agent in use, is limited by dose-related acute cardiotoxicity, myelo-suppression and multidrug resistance developed by cancer cells. To improve the antitumor efficacy and reduce the toxicity of Dox, many drug delivery systems have been developed, including poly(alkylcyanoacrylate) (PACA) nanoparticles. A new formulation of PACA nanoparticles with potential stealth properties were prepared by redox radical emulsion polymerization and associated to Dox in our laboratory. To comparatively investigate the pharmacokinetics and the biodistribution of different formulations of Dox associated PACA nanoparticles, a simple and rapid high performance liquid chromatographic method (HPLC) was developed for the quantification of Dox in plasma and tissues of rats treated with Dox loaded PACA nanoparticle (Dox-PACA). Dox was eluted at 4.4 min and it was well separated from its main metabolites doxorubicinol (Doxl) and doxorubicinon (Doxon) and idarubicin (Ida) used as internal standard (IS). Extraction of Dox from biological media was achieved by liquid-liquid extraction. The recovery of total Dox (i.e. free Dox and Dox associated with nanoparticles) from plasma and tissues (liver, spleen and heart) spiked with Dox-PACA were 71 and 78% for 0.05 and 1 μg/mL in rat plasma, respectively, and 73% and 80% for 0.5 and 10 μg/g in tissues, respectively. The method is linear from 0.05 to 1.5 μg/mL of Dox in plasma. The limit of detection of the method is 0.5 ng of Dox per injection (50 μL). The between-day and within-day precisions of the method were 97.1-102.9% and 97.3-101.7% for concentrations ranging from 0.05 to 1 μg/mL, respectively. Preliminary data suggested that this method can be applied to determine the pharmacokinetic and biodistribution of Dox associated with PACA nanoparticles after intravenous administration to rats.
Journal of chromatography. B, Analytical technologies in the biomedical and life sciences 03/2012; 887-888:128-32. · 2.78 Impact Factor
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ABSTRACT: This study deals with the development of an oral controlled-release dosage form of a highly water-soluble antiepileptic drug. In this respect, drug-loaded spheroid particles close to 380 μm in diameter and composed of lipid binders were prepared by prilling. The purpose here was to thoroughly characterize the controlled-release mechanism of the drug in aqueous pH-6.8 buffered dissolution medium. Water and drug diffusion pathways as well as related kinetic parameters were determined by theoretical analysis of experimental data. Conventional in-vitro experiments performed by analytical high performance liquid chromatography showed that the released fraction reaches 90 wt.% only after a 24-hour immersion in the dissolution medium, pointing out an effective sustained release mechanism. Interpretation of these data was strengthened by the implementation of an innovative methodology involving X-ray diffraction and microtomography to follow the structural evolution of the drug-loaded microspheres at molecular and microscopic scales. This approach allowed to explicit that water and drug transports obey to Fickian diffusion behaviours in good agreement with Crank's and non-simplified Higuchi's equations, respectively. In the latter case, independent modelling of drug release assimilating the microspheres to a variable-geometry reservoir was considered to refine the kinetic analysis of the diffusion process. The water diffusion coefficient D(w) was found equal to 6.3 × 10(-9) cm(2)/s and the API apparent diffusion coefficient reduced to the tortuosity of the matrix D(API)/τ equal to 2 × 10(-9) cm(2)/s. This study ranks among the rare examples of monolithic dispersion device constituted by a highly soluble drug incorporated inside a perfectly inert lipid matrix. The dissolution liquid penetrates the particles through channels progressively created by the solubilization of the drug itself which occurs instantaneously at the inner front of the liquid.
Journal of Controlled Release 11/2011; 158(3):393-402. · 5.73 Impact Factor
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ABSTRACT: New docetaxel (Dtx) and cyclodextrin (CD) inclusion complexes having improved apparent water solubility (up to 9.98mgmL(-1)) were obtained from phase solubility diagrams. γ-CD and SBE-β-CD offered only poor solubility enhancements while considerable increases in apparent solubility were obtained with Me-β-CD (20%, w/w) and HP-β-CD (40%, w/w) (9.98mgmL(-1) and 7.43mgmL(-1), respectively). The complexation mechanism between Dtx and Me-β-CD was investigated by circular dichroism spectrometry, two-dimensional (1)H NMR (NOESY) in D(2)O, isothermal titration calorimetry (ITC) and molecular docking calculations. Circular dichroism and NOESY confirmed the existence of non-covalent interactions between Dtx and Me-β-CD and suggested that the tert-butyl group (C(6)-C(9)) and two aromatic groups (C(24)-C(29) and C(30)-C(35)) of Dtx interacted with the Me-β-CD molecules. The combination of ITC results to molecular docking calculations led to the identification of an unconventional sequential binding mechanism between Me-β-CD and Dtx. In this sequential binding, a Me-β-CD molecule first interacted with both tert-butyl and C(30)-C(35) aromatic groups (K(1): 744M(-1)). Then a second Me-β-CD molecule interacted with the C(24)-C(29) aromatic group (K(2): 202M(-1)). The entropy of the first interaction was positive, whereas a negative value of entropy was found for the second interaction. The opposite behavior observed for these two sites was explained by differences in the hydrophobic contact surface and functional group flexibility.
International journal of pharmaceutics 09/2011; 416(1):171-80. · 2.96 Impact Factor
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Mouna Raouane,
Didier Desmaele,
Marie Gilbert-Sirieix, Claire Gueutin,
Fatima Zouhiri,
Claudie Bourgaux,
Elise Lepeltier,
Ruxandra Gref,
Ridha Ben Salah,
Gary Clayman,
Liliane Massaad-Massade,
Patrick Couvreur
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ABSTRACT: We report the conjugation of the natural lipid squalene (SQ) with a small interfering RNA (siRNA), against the junction oncogene RET/PTC1, usually found in papillary thyroid carcinoma (PTC). The acyclic isoprenoid chain of squalene has been covalently coupled with siRNA RET/PTC1 at the 3'-terminus of the sense strand via maleimide-sulfhydryl chemistry. Remarkably, the linkage of siRNA RET/PTC1 to squalene led to an amphiphilic molecule that self-organized in H(2)O as siRNA-SQ RET/PTC1 nanoparticles (NPs). The siRNA-SQ RET/PTC1 NPs, stable in H(2)O, were used for biological studies. In vitro, they did not show any cytotoxicity. Interestingly, in vivo, on a mice xenografted RET/PTC1 experimental model, RET/PTC1-SQ NPs were found to inhibit tumor growth and RET/PTC1 oncogene and oncoprotein expression after 2.5 mg/kg cumulative dose intravenous injections. In conclusion, these results showed that the "squalenoylation" offers a new noncationic plate-form for the siRNA delivery.
Journal of Medicinal Chemistry 06/2011; 54(12):4067-76. · 4.80 Impact Factor
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Rym Skanji,
Karine Andrieux,
Muriel Lalanne,
Joachim Caron,
Claudie Bourgaux,
Jéril Degrouard,
François Brisset, Claire Gueutin,
Hélène Chacun,
Nathalie Dereuddre-Bosquet,
Angelo Paci,
Gilles Vassal,
Laurent Bauduin,
Sébastien Garcia-Argote,
Bernard Rousseau,
Pascal Clayette,
Didier Desmaële,
Patrick Couvreur
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ABSTRACT: New nanomedicines could improve drug accumulation in HIV sanctuaries and ameliorate their antiretroviral efficiency. In this view, we propose herein a combined strategy based on a biomimetic prodrug of ddI and its formulation in well-characterized lipid nanoobjects. The glycerolipidic prodrug of ddI (ProddINP) has been synthesized and its bulk structure was characterized. An appropriate formulation of this prodrug has been designed using a rational approach combining different physicochemical techniques. The high incorporation ratio of the prodrug into dipalmitoylphosphatidylcholine (DPPC) bilayers was determined by DSC. Then two liposome preparation methods were compared, with respect to size, incorporation yield and molecular/supramolecular organization of vesicles. The best liposomal formulation of ProddINP has been checked to keep intact the anti-HIV activity of ddI. This formulation was finally compared to ddI after oral route in rat. The animal experiments evidenced the increase of ddI blood half life (3-fold) and its enhanced accumulation as prodrug form at 24h in numerous organs and especially intestine after administration of ProddINP in comparison with free drug. Finally, the tested liposomal formulation of ProddINP seems to be a promising approach to eradicate HIV infection from intestinal sanctuaries where the virus can concentrate.
International journal of pharmaceutics 05/2011; 414(1-2):285-97. · 2.96 Impact Factor
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ABSTRACT: Because of the described hazards related to inhalation of manufactured nanoparticles, we investigated the lung toxicity of biodegradable poly (lactide-co-glycolide) (PLGA) nanoparticles displaying various surface properties on human bronchial Calu-3 cells.
Positively and negatively charged as well as neutral nanoparticles were tailored by coating their surface with chitosan, Poloxamer, or poly (vinyl alcohol), respectively. Nanoparticles were characterized in terms of size, zeta potential, and surface chemical composition, confirming modifications provided by hydrophilic polymers.
Although nanoparticle internalization by lung cells was clearly demonstrated, the cytotoxicity of the nanoparticles was very limited, with an absence of inflammatory response, regardless of the surface properties of the PLGA nanoparticles.
These in vitro results highlight the safety of biodegradable PLGA nanoparticles in the bronchial epithelium and provide initial data on their potential effects and the risks associated with their use as nanomedicines.
International Journal of Nanomedicine 01/2011; 6:2591-605. · 3.13 Impact Factor
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ABSTRACT: Residual antibiotics reaching the colon have many deleterious effects on the colonic microbiota including the selection of new antibiotic resistances. In order to avoid the selection of ciprofloxacin resistance, intestine or colon-targeted zinc-pectinate beads containing activated charcoal (AC) were designed for the inactivation of residual ciprofloxacin in the gastrointestinal tract of rats. Bead stability after oral administration was adjusted by tuning the concentration of zinc in the gelling bath and the number of washings. Intestine and colon-targeted beads were administered along with 50mg/kg of ciprofloxacin and ciprofloxacin was dosed in the plasma and the feces using HPLC. Ciprofloxacin pharmacokinetics was not affected by the oral co-administration of beads. The co-administration of intestine-targeted beads led to a significant decrease of the residual fecal free ciprofloxacin with a pronounced dose effect. Our study suggests the rat model is not appropriate for the investigation of bacteria responsive colon-targeted beads probably due to the important anatomical and physiological differences between human and rat gastrointestinal tracts. The ability of AC loaded zinc-pectinate beads to selectively decrease the intestinal residual fraction of ciprofloxacin could provide a better protection of the intestinal microbiota and may prevent the emergence of ciprofloxacin resistance in the gastrointestinal tract.
European journal of pharmaceutical sciences: official journal of the European Federation for Pharmaceutical Sciences 10/2010; 41(2):281-8. · 2.61 Impact Factor
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ABSTRACT: The aim of this work was to explore the capacity to load an anticancer agent Doxorubicin (Dox) on new poly(alkylcyanoacrylate) (PACA) nanoparticles prepared by redox radical emulsion polymerization (RREP). These nanoparticles present several advantages compared with the previously described PACA nanoparticles obtained by anionic emulsion polymerization (AEP). Their cytotoxicity was lower and because they do not activate the complement system, they are believed to behave like stealth nanoparticles after intravenous administration. Dox was incorporated during the preparation of the nanoparticles. However, the drug molecules were degraded by cerium IV, which is a strong oxidant agent. To avoid drug degradation, Dox must be loaded by adsorption on preformed nanoparticles. Optimal loading capacity was deduced from a Scatchard's analysis of the Dox adsorption pattern. The loading performance [Loading efficiency (LE) 74%, Loading content (LC) 3.7%], the Dox release and the amount of Dox retained by the new nanoparticles 75% were similar to those of the already well described PACA nanoparticles obtained by AEP (LE 79% and LC 4.2%, drug retention capacity 75%). It can be concluded that the loading and releasing properties make the new nanoparticles an interesting carrier candidate for the in vivo delivery of Dox. © 2010 Wiley Periodicals, Inc. J Appl Polym Sci, 2011
Journal of Applied Polymer Science 07/2010; 119(2):816 - 822. · 1.29 Impact Factor
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ABSTRACT: Beads made of a zinc-pectinate matrix containing activated charcoal were designed for the adsorption of colonic residual antibiotics responsible of the emergence of resistance. Bead stability was shown to correlate with bead zinc content, 0.08 mg/mg being the minimal amount of zinc that protects the egg-box structure against total disintegration. Moreover, the stability in simulated gastro-intestinal media was shown to be related to the composition of the incubation medium. Indeed, gastric medium was shown to extract a large amount of zinc inducing an early disintegration of the beads in the intestinal medium, making necessary their protection by gastro-resistant capsules. Simulated intestinal medium buffered by phosphate was not adapted for the disintegration studies since the formation of a zinc phosphate precipitate on beads surface enhances their resistance to further degradation by pectinases contained in colonic medium. On the other hand, beads incubated in HEPES were stable in intestinal medium and nicely degraded by pectinases contained in simulated colonic medium. Despite this stability, coating with Eudragit RS was needed to prevent the early adsorption of antibiotics in intestinal medium. Adsorption studies in the simulated colonic medium show that the adsorption capacity of activated charcoal is not modified after its encapsulation within pectin beads making the elimination of ciprofloxacin reaching the colon clinically feasible.
International journal of pharmaceutics 06/2009; 379(2):251-9. · 2.96 Impact Factor
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ABSTRACT: Low temperature spectroelectrochemistry was performed to generate highly reduced σ-alkyl iron porphyrins, which were unstable at room temperature and oxygen sensitive. Suitable conditions for obtaining a stable compound were provided by keeping the thin-layer cell under strictly anaerobic conditions. To calibrate the cell and check the deoxygenation the electrochemically produced radical anion of ZnTPP was used as an oxygen probe. By satisfying the anaerobic conditions, mainly due to the fact that no Teflon or Kel F spacers were used, it was possible for the first time to generate and characterize highly reduced σ-alkyl iron porphyrins at low temperatures. The ligation reactions of these species were also stabilized.
Electroanalysis 04/2005; 8(11):1029 - 1033. · 2.87 Impact Factor
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