Impact of surfactant selection and incorporation on in situ nanoparticle formation from amorphous solid dispersions

[Display omitted] Spray dried amorphous solid dispersions (ASDs) stand as one of the most effective formulation strategies to address issues of low aqueous solubility when developing new chemical entities.An emerging research topic focusing on the formation of amorphous nanoparticles or nanodroplets...

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Veröffentlicht in:	International journal of pharmaceutics 2021-09, Vol.607, p.120980-120980, Article 120980
Hauptverfasser:	Yen, Chun-Wan, Kuhn, Robert, Hu, Chloe, Zhang, Wei, Chiang, Po-Chang, Chen, Jacob Z., Hau, Jonathan, Estevez, Alberto, Nagapudi, Karthik, Leung, Dennis H.
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Sprache:	eng
Schlagworte:	Amorphous solid dispersion Bioavailability Formulation Nanoparticles Surfactants
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container_title	International journal of pharmaceutics
container_volume	607
creator	Yen, Chun-Wan Kuhn, Robert Hu, Chloe Zhang, Wei Chiang, Po-Chang Chen, Jacob Z. Hau, Jonathan Estevez, Alberto Nagapudi, Karthik Leung, Dennis H.
description	[Display omitted] Spray dried amorphous solid dispersions (ASDs) stand as one of the most effective formulation strategies to address issues of low aqueous solubility when developing new chemical entities.An emerging research topic focusing on the formation of amorphous nanoparticles or nanodroplets from ASD formulations has attracted attention recently. These ASD nanoparticlescan be highly beneficial and able to further increase oral bioavailability. The incorporation of surfactants in ASD formulations has been shown to facilitate the formation of these nanoparticles. Therefore, understanding the mechanism of surfactant-promoted nanoparticle formation becomes critical for the rational design of ASD formulations. This work demonstrated the importance of inclusion of the surfactant within the ASD composition for nanoparticle formation. In contrast, when a surfactant is added externally (e.g., by inclusion in the dosing vehicle), only a limited degree of nanoparticle formation was observed even at the optimized surfactant-to-drug ratios. A variety of different surfactants were also assessed for understanding their impact on ASD nanoparticle formation. The spray drying systems containing nonionic surfactants, Tween 80 and Vitamin E TPGS, produced higher amounts of in situ ASD nanoparticles when compared to an anionic surfactant, sodium lauryl sulfate (SLS). The ASD nanoparticles produced by the Genentech developmental compound, GDC-0334, were highly stable and retained their original particle size and amorphous feature for at least 18 h under biorelevant conditions. The high degree of nanoparticle formation from spray dried GDC-0334 containing Tween 80 combined with the superior physical stability of the nanoparticles also translated to enhanced in vivo performance in a rat pharmacokinetics study.
doi_str_mv	10.1016/j.ijpharm.2021.120980
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The spray drying systems containing nonionic surfactants, Tween 80 and Vitamin E TPGS, produced higher amounts of in situ ASD nanoparticles when compared to an anionic surfactant, sodium lauryl sulfate (SLS). The ASD nanoparticles produced by the Genentech developmental compound, GDC-0334, were highly stable and retained their original particle size and amorphous feature for at least 18 h under biorelevant conditions. 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subjects	Amorphous solid dispersion Bioavailability Formulation Nanoparticles Surfactants
title	Impact of surfactant selection and incorporation on in situ nanoparticle formation from amorphous solid dispersions
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