How To Prepare and Stabilize Very Small Nanoemulsions

Delmas, Thomas; Piraux, Hélène; Couffin, Anne-Claude; Texier, Isabelle; Vinet, F.; Poulin, Philippe; Cates, Michael E.; Bibette, Jérôme

doi:10.1021/la104221q

Cited by 320 publications

(305 citation statements)

References 45 publications

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“…The low cytotoxicity and high loading capacity of synthetic lipidbased nanoparticles limit adverse side effects, enhance delivery to biologic targets, and reduce metabolism and distribution to undesired sites (1-3). Lipidots are newly described lipid nanoparticles based on oil-in-water nanoemulsion templates made of components generally regarded as safe (4,5), forming colloidal dispersions of lipid droplets with finely tuned core/shell properties and stable for several years (4,5). These particles display no cellular toxicity and can incorporate high amounts of organic fluorescent dyes (6).…”

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confidence: 99%

Synthetic Lipid Nanoparticles Targeting Steroid Organs

et al. 2013

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Lipidots are original nanoparticulate lipid delivery vectors for drugs and contrast agents made from materials generally regarded as safe. Here, we characterized the in vivo stability, biodistribution, and pharmacokinetics of lipidots. Methods: Lipidots 55 nm in diameter and coated with a phospholipid/poly(ethyleneglycol) surfactant shell were triply labeled with 3 H-cholesteryl-hexadecyl-ether, cholesteryl-14 C-oleate, and the 1,19-dioctadecyl-3,3,39,39-tetramethylindotricarbocyanine infrared fluorescent dye and injected intravenously into immunocompetent Friend virus B-type mice. The pharmacokinetics and biodistribution of lipidots were analyzed quantitatively in serial samples of blood and tissue and with in vivo optical imaging and were refined by microscopic examination of selected target tissues. Results: The plasmatic half-life of lipidots was approximately 30 min. Radioactive and fluorescent tracers displayed a similar nanoparticle-driven biodistribution, indicative of the lipidots' integrity during the first hours after injection. Lipidots distributed in the liver and, surprisingly, in the steroid-rich organs adrenals and ovaries, but not in the spleen. This tropism was confirmed at the microscopic level by histologic detection of 1,19-dioctadecyl-3,3,39,39-tetramethylindotricarbocyanine. Nanoparticle loading with cholesterol derivatives increased accumulation in ovaries in a dosedependent manner. Conclusion: This previously unreported distribution pattern is specific to lipidots and attributed to their nanometric size and composition, conferring on them a lipoproteinlike behavior. The affinity of lipidots for steroid hormone-rich areas is of interest to address drugs and contrast agents to lipoprotein-receptor-overexpressing cancer cells found in hormone-dependent tumors.

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Synthetic Lipid Nanoparticles Targeting Steroid Organs

et al. 2013

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“…In order to hasten the process of stability testing, few of the methods have been reported in the literature. The methods of centrifugation, accelerated stability testing have been adopted to assess the long term stability of pharmaceutical formulations 7 .…”

Section: Stability Studiesmentioning

confidence: 99%

Development and in Vitro Characterization of Nanoemulsion as Adjuvant for the Administration of Vaccine Using a Model Antigen

Vijaya¹,

Aswini²,

Madheshwaran³

2016

Int. Res. J. Pharm.

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The present study has investigated the development of oil in water type nanoemulsion (NE) for the incorporation of vaccine. NE act as adjuvant and potentiate the immunogenicity of antigen. The NE was formulated using plant essential oil, surfactant tween 80 and co surfactant ethanol by high energy emulsification method. The formulations were optimized for surfactant and cosurfactant ratio, Smix concentration and a ternary phase diagram was constructed to identify the area of NE formation. Formulations of NE1 to NE5 were prepared by sonication which are subjected to varying number of sonication cycles to get NE in 100nm -200nm range and NE was subjected to short term and long term stability assessment. The NE was characterized in vitro for transparency, droplet size, zeta potential, pH, viscosity, conductivity, surface tension, fourier transform infrared spectroscopy. Transparent stable nanoemulsion (NE5) having mean droplet diameter of 84.23nm was obtained at 3:2 ratio of Smix,(10%) and the oil and surfactant ratio of 1:5 (v/v). No significant change in droplet diameter was observed after one week of storage at different temperatures. Surfactant concentration has been found to play a vital role in obtaining a stable nanosized emulsion. Further the NE5 was incorporated with pertussis toxin (PTAg-NE5) as a model vaccine and analysed for compatibility, size and stability. The PTAg-NE5 showed the incorporation of antigen with a slight increase in size of 99.42nm. The developed NE was found to be suitable for the incorporation of vaccine and thus could potentiate the immunogenicity of antigen.

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“…The formulation of conventional Lipidot ® has been previously described elsewhere (12,13). formulated as above described.…”

Section: Lipidot ® Formulationmentioning

confidence: 99%

“…As colloidal nanoemulsions, Lipidot ® formulations are composed of lipid droplets surrounded by lecithin and coated with PEG surfactant with Z-average diameters from 50 to 150 nm to render colloidal stability, reported with a shelf-life in suspension over one year (12). Because their interaction with the stationary phase materials could potentially affect the integrity of the nanoparticles it was necessary to confirm their colloidal stability after the SPE process to validate its use as a separation method.…”

Section: Assessment Of the Colloidal Stability Of Lipidot ® Followingmentioning

confidence: 99%