mucin collaborations
Several past projects critically profited from combining our mucin expertise which that of other labs. For example, the following publications were only possible as a joint effort between or group and others.
| publication title | collaboration with |
|---|---|
Multifunctional ‘Janus-type’ bilayer films combine broad-range tissue adhesion with guided drug release. Advanced Functional Materials, accepted (2022) | Mela lab (TUM Munich) |
Airway mucins promote immunopathology in virus-exacerbated chronic obstructive pulmonary disease. The Journal of Clinical Investigation, DOI:10.1172/JCI120901 (2022) | Singanayagam lab (Imperial College of London) |
Immune-modulating mucin hydrogel microdroplets for the encapsulation of cells and microtissue. Advanced Functional Materials (2021) | Crouzier lab (KTH Stockholm) |
Alpha-Synuclein penetrates mucin hydrogels despite its mucoadhesive properties, Biomacromolecules (2019) | Claessens lab (University Twente) |
Covalent mucin coatings form stable anti-biofouling layers on a broad range of medical polymer materials, Advanced Materials Interfaces (2020) | Sieber lab (TUM Chemistry) |
Modulating mucin hydration and lubrication by deglycosilation and polyethylene glycol binding, Advanced Materials Interfaces (2015) | Ribbeck lab (MIT Harvard), Johnson & Johnson |
Enzymatically active biomimetic micro-propellers for the penetration of mucin gels, Science Advances (2015) | Fischer lab (MPI Stuttgart) |
A selective mucin/methylcellulose hybrid Gel with tailored properties, Macromolecular Bioscience (2016) | Bein lab (LMU Munich), Huster lab (Uni Leipzig) |
Cationic astringents alter the tribological and rheological properties of human saliva and salivary mucin solutions, Biotribology (2016) | Hofmann lab (TUM WZW) |
Quantification of cartilage wear morphologies in unidirectional sliding experiments: influence of different macromolecular lubricants, Biotribology (2017) | Schmidt lab (UConn Health) |
Mucin-inspired lubrication on hydrophobic surfaces, Biomacromolecules (2017) | Crouzier lab (KTH Stockholm) |
Mucin coatings prevent tissue damage at the cornea-contact lens-interface, Advanced Materials Interfaces (2017) | Hugel lab (Uni Freiburg) |
Macromolecular coating enables tunable selectivity in a porous PDMS matrix, Macromolecular Bioscience (2017) | Boekhoven lab (TUM Chemistry) |
Reversible condensation of mucins into nanoparticles, Langmuir (2018) | Crouzier lab (KTH Stockholm) |
Transient binding promotes molecule penetration into mucin hydrogels by enhancing molecular partitioning, Biomaterials Science (2018) | Gerland lab (TUM Physics) |