The interplay between trehalose and dextran as spray drying precursors for cationic liposomes

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Standard

The interplay between trehalose and dextran as spray drying precursors for cationic liposomes. / Lutta, Anitta; Knopp, Matthias M.; Tollemeto, Matteo; Pedersen, Gabriel K.; Schmidt, Signe T.; Grohganz, Holger; Hagner Nielsen, Line.

I: International Journal of Pharmaceutics, Bind 652, 123798, 2024.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Lutta, A, Knopp, MM, Tollemeto, M, Pedersen, GK, Schmidt, ST, Grohganz, H & Hagner Nielsen, L 2024, 'The interplay between trehalose and dextran as spray drying precursors for cationic liposomes', International Journal of Pharmaceutics, bind 652, 123798. https://doi.org/10.1016/j.ijpharm.2024.123798

APA

Lutta, A., Knopp, M. M., Tollemeto, M., Pedersen, G. K., Schmidt, S. T., Grohganz, H., & Hagner Nielsen, L. (2024). The interplay between trehalose and dextran as spray drying precursors for cationic liposomes. International Journal of Pharmaceutics, 652, [123798]. https://doi.org/10.1016/j.ijpharm.2024.123798

Vancouver

Lutta A, Knopp MM, Tollemeto M, Pedersen GK, Schmidt ST, Grohganz H o.a. The interplay between trehalose and dextran as spray drying precursors for cationic liposomes. International Journal of Pharmaceutics. 2024;652. 123798. https://doi.org/10.1016/j.ijpharm.2024.123798

Author

Lutta, Anitta ; Knopp, Matthias M. ; Tollemeto, Matteo ; Pedersen, Gabriel K. ; Schmidt, Signe T. ; Grohganz, Holger ; Hagner Nielsen, Line. / The interplay between trehalose and dextran as spray drying precursors for cationic liposomes. I: International Journal of Pharmaceutics. 2024 ; Bind 652.

Bibtex

@article{eb8b44ab90d049ceb01bef6221a53642,
title = "The interplay between trehalose and dextran as spray drying precursors for cationic liposomes",
abstract = "Successful oral delivery of liposomes requires formulations designed to withstand harsh gastrointestinal conditions, e.g., by converting to solid-state followed by loading into gastro-resistant delivery devices. The hypothesis was that the use of dextran-trehalose mixtures for spray drying would improve the rehydration kinetics of dried liposomes. The objectives were to determine the protective capacity of trehalose-dextran dehydration precursors and to increase the concentration of liposomes in the dry formulation volume. The study successfully demonstrated that 8.5% dextran combined with 76.5% trehalose protected CAF{\textregistered}04 liposomes during drying, with the liposome content maintained at 15% of the dry powder. Accordingly, the rehydration kinetics were slightly improved in formulations containing up to 8.5% dextran in the dry powder volume. Additionally, a 2.4-fold increase in lipid concentration (3 mM vs 7.245 mM) was achieved for spray dried CAF{\textregistered}04 liposomes. Ultimately, this study demonstrates the significance of trehalose as a primary carrier during spray drying of CAF{\textregistered}04 liposomes and highlights the advantage of incorporating small amounts of dextran to tune rehydration kinetics of spray-dried liposomes.",
keywords = "Dextran, Liposomes, Rehydration kinetics, Solid solubility, Spray drying, Trehalose",
author = "Anitta Lutta and Knopp, {Matthias M.} and Matteo Tollemeto and Pedersen, {Gabriel K.} and Schmidt, {Signe T.} and Holger Grohganz and {Hagner Nielsen}, Line",
note = "Publisher Copyright: {\textcopyright} 2024 The Authors",
year = "2024",
doi = "10.1016/j.ijpharm.2024.123798",
language = "English",
volume = "652",
journal = "International Journal of Pharmaceutics",
issn = "0378-5173",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - The interplay between trehalose and dextran as spray drying precursors for cationic liposomes

AU - Lutta, Anitta

AU - Knopp, Matthias M.

AU - Tollemeto, Matteo

AU - Pedersen, Gabriel K.

AU - Schmidt, Signe T.

AU - Grohganz, Holger

AU - Hagner Nielsen, Line

N1 - Publisher Copyright: © 2024 The Authors

PY - 2024

Y1 - 2024

N2 - Successful oral delivery of liposomes requires formulations designed to withstand harsh gastrointestinal conditions, e.g., by converting to solid-state followed by loading into gastro-resistant delivery devices. The hypothesis was that the use of dextran-trehalose mixtures for spray drying would improve the rehydration kinetics of dried liposomes. The objectives were to determine the protective capacity of trehalose-dextran dehydration precursors and to increase the concentration of liposomes in the dry formulation volume. The study successfully demonstrated that 8.5% dextran combined with 76.5% trehalose protected CAF®04 liposomes during drying, with the liposome content maintained at 15% of the dry powder. Accordingly, the rehydration kinetics were slightly improved in formulations containing up to 8.5% dextran in the dry powder volume. Additionally, a 2.4-fold increase in lipid concentration (3 mM vs 7.245 mM) was achieved for spray dried CAF®04 liposomes. Ultimately, this study demonstrates the significance of trehalose as a primary carrier during spray drying of CAF®04 liposomes and highlights the advantage of incorporating small amounts of dextran to tune rehydration kinetics of spray-dried liposomes.

AB - Successful oral delivery of liposomes requires formulations designed to withstand harsh gastrointestinal conditions, e.g., by converting to solid-state followed by loading into gastro-resistant delivery devices. The hypothesis was that the use of dextran-trehalose mixtures for spray drying would improve the rehydration kinetics of dried liposomes. The objectives were to determine the protective capacity of trehalose-dextran dehydration precursors and to increase the concentration of liposomes in the dry formulation volume. The study successfully demonstrated that 8.5% dextran combined with 76.5% trehalose protected CAF®04 liposomes during drying, with the liposome content maintained at 15% of the dry powder. Accordingly, the rehydration kinetics were slightly improved in formulations containing up to 8.5% dextran in the dry powder volume. Additionally, a 2.4-fold increase in lipid concentration (3 mM vs 7.245 mM) was achieved for spray dried CAF®04 liposomes. Ultimately, this study demonstrates the significance of trehalose as a primary carrier during spray drying of CAF®04 liposomes and highlights the advantage of incorporating small amounts of dextran to tune rehydration kinetics of spray-dried liposomes.

KW - Dextran

KW - Liposomes

KW - Rehydration kinetics

KW - Solid solubility

KW - Spray drying

KW - Trehalose

U2 - 10.1016/j.ijpharm.2024.123798

DO - 10.1016/j.ijpharm.2024.123798

M3 - Journal article

C2 - 38190949

AN - SCOPUS:85184752254

VL - 652

JO - International Journal of Pharmaceutics

JF - International Journal of Pharmaceutics

SN - 0378-5173

M1 - 123798

ER -

ID: 383088098