TY  - JOUR
A1  - Quartinello, Felice
A1  - Tallian, Claudia
A1  - Auer, Julia
A1  - Schön, Herta
A1  - Vielnascher, Robert
A1  - Weinberger, Simone
A1  - Wieland, Karin
A1  - Weihs, Anna
A1  - Rollett, Alexandra
A1  - Lendl, Bernhard
A1  - Teuschl, Andreas
A1  - Pellis, Alessandro
A1  - Gübitz, Georg
T1  - Smart Textiles in Wound Care: Functionalization of Cotton/PET Blends with Antimicrobial Nanocapsules
JF  - Journal of Materials Chemistry B
KW  - Smart textiles
KW  - Tissue Engineering
KW  - Regenerative Medicine
KW  - Antimicrobial
KW  - Wound
Y1  - 2019
ER  - 
TY  - JOUR
A1  - Tallian, Claudia
A1  - Herrero-Rollett, Alexandra
A1  - Stadler, Karina
A1  - Vielnascher, Robert
A1  - Wieland, Karin
A1  - Weihs, Anna
A1  - Pellis, Alessandro
A1  - Teuschl, Andreas
A1  - Lendl, Bernhard
A1  - Amenitsch, Heinz
A1  - Guebitz, Georg M.
T1  - Structural insights into pH-responsive drug release of self-assembling human serum albumin-silk fibroin nanocapsules.
JF  - European Journal of Pharmaceutics and Biopharmaceutics
N2  - Inflammation processes are associated with significant decreases in tissue or lysosomal pH from 7.4 to 4, a fact that argues for the application of pH-responsive drug delivery systems. However, for their design and optimization a full understanding of the release mechanism is crucial. In this study we investigated the pH-depending drug release mechanism and the influence of silk fibroin (SF) concentration and SF degradation degree of human serum albumin (HSA)-SF nanocapsules. Sonochemically produced nanocapsules were investigated regarding particle size, colloidal stability, protein encapsulation, thermal stability and drug loading properties. Particles of the monodisperse phase showed average hydrodynamic radii between 438 and 888 nm as measured by DLS and AFM and a zeta potential of -11.12 ± 3.27 mV. Together with DSC results this indicated the successful production of stable nanocapsules. ATR-FTIR analysis demonstrated that SF had a positive effect on particle formation and stability due to induced beta-sheet formation and enhanced crosslinking. The pH-responsive release was found to depend on the SF concentration. In in-vitro release studies, HSA-SF nanocapsules composed of 50% SF showed an increased pH-responsive release for all tested model substances (Rhodamine B, Crystal Violet and Evans Blue) and methotrexate at the lowered pH of 4.5 to pH 5.4, while HSA capsules without SF did not show any pH-responsive drug release. Mechanistic studies using confocal laser scanning microscopy (CLSM) and small angle X-ray scattering (SAXS) analyses showed that increases in particle porosity and decreases in particle densities are directly linked to pH-responsive release properties. Therefore, the pH-responsive release mechanism was identified as diffusion controlled in a novel and unique approach by linking scattering results with in vitro studies. Finally, cytotoxicity studies using the human monocytic THP-1 cell line indicated non-toxic behavior of the drug loaded nanocapsules when applied in a concentration of 62.5 µg mL-1.
KW  - Biomaterial
KW  - Tissue Engineering
Y1  - 
ER  -