71 Titel
Imine bond formation as a tool for incorporation of amikacin in self-emulsifying drug delivery systems (SEDDS)
In: European journal of pharmaceutics and biopharmaceutics, 162 (2021), Seite 82-91Elsevier, 2021In vitro investigation of thiolated chitosan derivatives as mucoadhesive coating materials for solid lipid nanoparticles
In: Biomacromolecules, 22 (2021), 9, Seite 3980-3991American Chemical Society, 2021Less reactive thiol ligands: key towards highly mucoadhesive drug delivery systems
In: Polymers, 12 (2020), 6 Artikel-ID 1259, Seite 1-18MDPI, 2020Lipid-based nanoparticles: enhanced cellular uptake via surface thiolation
In: International journal of pharmaceutics, 635 (2023), Artikel-ID 122753, Seite 1-14Elsevier, 2023Lipids and polymers in pharmaceutical technology: lifelong companions
In: International journal of pharmaceutics, 558 (2019), Seite 128-142Elsevier, 2019Mucoadhesive properties of polyacrylates: structure - function relationship
In: International journal of adhesion and adhesives, 107 (2021), Artikel-ID 102857, Seite 1-8Elsevier, 2021Nanoarchitectonics 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, 2022Nanostructured lipid carriers (NLCs) for oral peptide drug delivery: about the impact of surface decoration
In: Pharmaceutics, 13 (2021), 8 Artikel-ID 1312, Seite 1-14MDPI, 2021Non-ionic thiolated cyclodextrins - the next generation
In: International journal of nanomedicine, 13 (2018), Seite 4003-4013Dove Medical Press, 2018Oral delivery of calcitonin-ion pairs: in vivo proof of concept for a highly lipophilic counterion
In: International journal of pharmaceutics, 631 (2023), Artikel-ID 122476, Seite 1-9Elsevier, 2023Oral delivery of non-viral nucleic acid-based therapeutics - do we have the guts for this?
In: European journal of pharmaceutical sciences, 133 (2019), Seite 190-204Elsevier, 2019Oral delivery of therapeutic peptides and proteins: technology landscape of lipid-based nanocarriers
In: Advanced drug delivery reviews, 182 (2022), Artikel-ID 114097, Seite 1-26Elsevier, 2022Oral drug delivery: influence of mucus on cellular interactions and uptake of lipid-based nanocarriers in Caco-2 cells
In: Acta biomaterialia, 167 (2023), Seite 416-424Elsevier, 2023Overcoming the mucosal barrier: tetraether lipid-stabilized liposomal nanocarriers decorated with cell-penetrating peptides enable oral delivery of va [...]
In: Advanced therapeutics, 4 (2021), 4 Artikel-ID 2000247, Seite 1-12Wiley, 2021PEG vs. zwitterions: how these surface decorations determine cellular uptake of lipid-based nanocarriers
In: Journal of colloid and interface science, 647 (2023), Seite 52-64Elsevier, 2023Peptide antibiotic-polyphosphate nanoparticles: a promising strategy to overcome the enzymatic and mucus barrier of the intestine
In: Biomacromolecules, 24 (2023), 6, Seite 2587-2595ACS Publications, 2023Per-thiolated cyclodextrins: nanosized drug carriers providing a prolonged gastrointestinal residence time
In: Carbohydrate polymers, 300 (2023), Artikel-ID 120275, Seite 1-11Elsevier, 2023Phosphatase-degradable nanoparticles: a game-changing approach for the delivery of antifungal proteins
In: Journal of colloid and interface science, 646 (2023), Seite 290-300Elsevier, 2023Phosphate decorated lipid-based nanocarriers providing a prolonged mucosal residence time
In: International journal of pharmaceutics, 625 (2022), Artikel-ID 122096, Seite 1-8Elsevier, 2022Polyphosphate coated nanoparticles: enzyme-activated charge-reversal gene delivery systems
In: International journal of pharmaceutics, 646 (2023), Artikel-ID 123474, Seite 1-13Elsevier, 2023