11 Titel
Polyphosphate coated nanoparticles: enzyme-activated charge-reversal gene delivery systems
In: International journal of pharmaceutics, 646 (2023), Artikel-ID 123474, Seite 1-13Elsevier, 2023Nanoarchitectonics of Layer-by-Layer (LbL) coated nanostructured lipid carriers (NLCs) for enzyme-triggered charge reversal
In: Journal of colloid and interface science, 629 (2022), Part A, Seite 541-553Elsevier, 2022Charge-reversal nanoemulsions: a systematic investigation of phosphorylated PEG-based surfactants
In: International journal of pharmaceutics, 613 (2022), Artikel-ID 121438, Seite 1-9Elsevier, 2022Preparation and evaluation of charge reversal solid lipid nanoparticles
In: Journal of pharmaceutical sciences, 111 (2022), 8, Seite 2270-2279Elsevier, 2022- Das Dokument ist auf Wunsch des Urhebers/der Urheberin online nicht zugänglich
Advanced self-emulsifying drug delivery systems
enabling formulations for the delivery of small and macromolecular therapeuticsInnsbruck, April 2022 Replacing PEG-surfactants in self-emulsifying drug delivery systems: surfactants with polyhydroxy head groups for advanced cytosolic drug delivery
In: International journal of pharmaceutics, 618 (2022), Artikel-ID 121633, Seite 1-14Elsevier, 2022SEDDS-loaded mucoadhesive fiber patches for advanced oromucosal delivery of poorly soluble drugs
In: Journal of controlled release, 348 (2022), Seite 692-705Elsevier, 2022Reactive oxygen species (ROS) in colloidal systems: are "PEG-free" surfactants the answer?
In: Journal of colloid and interface science, 616 (2022), Seite 571-583Elsevier, 2022Size shifting of solid lipid nanoparticle system triggered by alkaline phosphatase for site specific mucosal drug delivery
In: European journal of pharmaceutics and biopharmaceutics, 163 (2021), Seite 109-119Elsevier, 2021Chitosan - polyphosphate nanoparticles for a targeted drug release at the absorption membrane
In: Heliyon, 8 (2022), 9 Artikel-ID e10577, Seite 1-7Elsevier, 2022Development and in vitro characterization of transferrin-decorated nanoemulsion utilizing hydrophobic ion pairing for targeted cellular uptake
In: Journal of pharmaceutical innovation, (2021), Seite 1-11Springer, 2021