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Merck

Drug loading of polymeric micelles.

Pharmaceutical research (2012-11-09)
Tobias Miller, Gwenaelle van Colen, Bjoern Sander, Mariola Monika Golas, Senta Uezguen, Markus Weigandt, Achim Goepferich
ZUSAMMENFASSUNG

To gain mechanistic insights into drug loading and lyophilization of polymeric micelles. PEGylated poly-4-(vinylpyridine) micelles were loaded with dexamethasone. Three different methods were applied and compared: O/W emulsion, direct dialysis, cosolvent evaporation. Micellar dispersions with the highest drug load were lyophilized with varying lyoprotectors: sucrose, trehalose, maltose, a polyvinylpyrrolidine derivative, and β-cyclodextrin derivatives. For comparison, other PEGylated block copolymer micelles (PEGylated polylactic acid, polylactic acid-co-glycolic acid, polycaprolactone) were freeze-dried. Drug loading via direct dialysis from acetone was a less effective loading method which led to dexamethasone loads <2% w/w. O/W emulsion technique from dichlormethane increased drug load up to ~13% w/w; optimized cosolvent evaporation increased load up to ~19% w/w. An important step for cosolvent evaporation was solubility screen of the drug prior to preparation. Loading was maintained upon lyophilization with β-cyclodextrins which proved to be versatile stabilizers for other block copolymer micelles. Careful solvent selection prior to cosolvent evaporation was a beneficial approach to load hydrophobic drugs into polymeric micelles. Moreover, β-cyclodextrins could be used as versatile lyoprotectors for these micelles.

MATERIALIEN
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Produktbeschreibung

Sigma-Aldrich
Poly(4-vinylpyridin), average Mw ~60,000
Sigma-Aldrich
Poly(4-vinylpyridin), average Mw ~160,000