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Rationally designed ultra-short pulsed laser patterning of zirconia-based ceramics tailored for the bone-implant interface
Ackerl, N., Bork, A. H., Hauert, R., Müller, E., & Rottmar, M. (2021). Rationally designed ultra-short pulsed laser patterning of zirconia-based ceramics tailored for the bone-implant interface. Applied Surface Science, 545, 149020 (10 pp.). https://doi.org/10.1016/j.apsusc.2021.149020
In vitro skin culture media influence the viability and inflammatory response of primary macrophages
Griffoni, C., Neidhart, B., Yang, K., Groeber-Becker, F., Maniura-Weber, K., Dandekar, T., … Rottmar, M. (2021). In vitro skin culture media influence the viability and inflammatory response of primary macrophages. Scientific Reports, 11(1), 7070 (11 pp.). https://doi.org/10.1038/s41598-021-86486-7
Controlling pH by electronic ion pumps to fight fibrosis
Guex, A. G., Poxson, D. J., Simon, D. T., Berggren, M., Fortunato, G., Rossi, R. M., … Rottmar, M. (2021). Controlling pH by electronic ion pumps to fight fibrosis. Applied Materials Today, 22, 100936 (11 pp.). https://doi.org/10.1016/j.apmt.2021.100936
Gallium complex-functionalized P4HB fibers: a trojan horse to fight bacterial infection
Müller, A., Fessele, C., Zuber, F., Rottmar, M., Maniura-Weber, K., Ren, Q., & Guex, A. G. (2021). Gallium complex-functionalized P4HB fibers: a trojan horse to fight bacterial infection. ACS Applied Bio Materials, 4(1), 682-691. https://doi.org/10.1021/acsabm.0c01221
Tissue inhibitor of metalloproteinase (TIMP) peptidomimetic as an adjunctive therapy for infectious keratitis
Neidhart, B., Kowalska, M., Valentin, J. D. P., Gall, F. M., Ren, Q., Riedl, R., … Rottmar, M. (2021). Tissue inhibitor of metalloproteinase (TIMP) peptidomimetic as an adjunctive therapy for infectious keratitis. Biomacromolecules, 22(2), 629-639. https://doi.org/10.1021/acs.biomac.0c01473
Influence of ceftriaxone on human bone cell viability and in vitro mineralization potential is concentration- and time-dependent
Wiesli, M. G., Kaiser, J. P., Gautier, E., Wick, P., Maniura-Weber, K., Rottmar, M., & Wahl, P. (2021). Influence of ceftriaxone on human bone cell viability and in vitro mineralization potential is concentration- and time-dependent. Bone & Joint Research, 10(3), 218-225. https://doi.org/10.1302/2046-3758.103.BJR-2020-0412
Lumican is upregulated in osteoarthritis and contributes to TLR4-induced pro-inflammatory activation of cartilage degradation and macrophage polarization
Barreto, G., Senturk, B., Colombo, L., Brück, O., Neidenbach, P., Salzmann, G., … Rottmar, M. (2020). Lumican is upregulated in osteoarthritis and contributes to TLR4-induced pro-inflammatory activation of cartilage degradation and macrophage polarization. Osteoarthritis and Cartilage, 28, 92-101. https://doi.org/10.1016/j.joca.2019.10.011
Nanofiber membranes as biomimetic and mechanically stable surface coatings
Brunelli, M., Alther, S., Rossi, R. M., Ferguson, S. J., Rottmar, M., & Fortunato, G. (2020). Nanofiber membranes as biomimetic and mechanically stable surface coatings. Materials Science and Engineering C: Biomimetic Materials, Sensors and Systems, 108, 110417 (12 pp.). https://doi.org/10.1016/j.msec.2019.110417
Design of a versatile sample holder for facile culture of cells on electrospun membranes or thin polymer films under flow conditions
Mertgen, A. S., Rottmar, M., Weidenbacher, L., & Guex, A. G. (2020). Design of a versatile sample holder for facile culture of cells on electrospun membranes or thin polymer films under flow conditions. In K. Turksen (Ed.), Methods in molecular biology: Vol. 2125. Stem cell nanotechnology. Methods and protocols (pp. 1-13). https://doi.org/10.1007/7651_2018_192
Multi-functional biomaterials: combining materials modification strategies for engineering of cell contacting surfaces
Mertgen, A. S., Trossmann, V. T., Guex, A. G., Maniura-Weber, K., Scheibel, T., & Rottmar, M. (2020). Multi-functional biomaterials: combining materials modification strategies for engineering of cell contacting surfaces. ACS Applied Materials and Interfaces, 12(19), 21342-21367. https://doi.org/10.1021/acsami.0c01893
Silk fibroin/sericin 3D sponges: the effect of sericin on structural and biological properties of fibroin
Siavashani, A. Z., Mohammadi, J., Rottmar, M., Senturk, B., Nourmohammadi, J., Sadeghi, B., … Maniura-Weber, K. (2020). Silk fibroin/sericin 3D sponges: the effect of sericin on structural and biological properties of fibroin. International Journal of Biological Macromolecules, 153, 317-326. https://doi.org/10.1016/j.ijbiomac.2020.02.316
Responsive nanofibers with embedded hierarchical lipid self-assemblies
Tien, N. D., Maurya, A. K., Fortunato, G., Rottmar, M., Zboray, R., Erni, R., … Sadeghpour, A. (2020). Responsive nanofibers with embedded hierarchical lipid self-assemblies. Langmuir, 36(40), 11787-11797. https://doi.org/10.1021/acs.langmuir.0c01487
Electrospun colourimetric sensors for detecting volatile amines
Ulrich, S., Moura, S. O., Diaz, Y., Clerc, M., Guex, A. G., Read de Alaniz, J., … Boesel, L. F. (2020). Electrospun colourimetric sensors for detecting volatile amines. Sensors and Actuators B: Chemical, 322, 128570 (10 pp.). https://doi.org/10.1016/j.snb.2020.128570
In vitro cytocompatibility assessment of Ti-modified silicon-oxycarbide based polymer-derived ceramic implantable electrodes under pacing conditions
Vallachira Warriam Sasikumar, P., Müller, E., Clement, P., Jang, J., kakkava, E., Panusa, G., … Blugan, G. (2020). In vitro cytocompatibility assessment of Ti-modified silicon-oxycarbide based polymer-derived ceramic implantable electrodes under pacing conditions. ACS Applied Materials and Interfaces, 12(15), 17244-17253. https://doi.org/10.1021/acsami.0c01465
Silk based scaffolds with immunomodulatory capacity: anti-inflammatory effects of nicotinic acid
Zakeri Siavashani, A., Mohammadi, J., Maniura-Weber, K., Senturk, B., Nourmohammadi, J., Sadeghi, B., … Rottmar, M. (2020). Silk based scaffolds with immunomodulatory capacity: anti-inflammatory effects of nicotinic acid. Biomaterials Science, 8, 148 (15 pp.). https://doi.org/10.1039/C9BM00814D
Surface modification of ultrafine-grained titanium: influence on mechanical properties, cytocompatibility and osseointegration potential
Pippenger, B. E., Rottmar, M., Kopf, B. S., Stübinger, S., Dalla Torre, F. H., Berner, S., & Maniura-Weber, K. (2019). Surface modification of ultrafine-grained titanium: influence on mechanical properties, cytocompatibility and osseointegration potential. Clinical Oral Implants Research, 30, 99-110. https://doi.org/10.1111/clr.13396
Cell membrane-inspired silicone interfaces that mitigate pro-inflammatory macrophage activation and bacterial adhesion
Qin, X. H., Senturk, B., Valentin, J., Malheiro, V., Fortunato, G., Ren, Q., … Maniura-Weber, K. (2019). Cell membrane-inspired silicone interfaces that mitigate pro-inflammatory macrophage activation and bacterial adhesion. Langmuir, 35(5), 1882-1894. https://doi.org/10.1021/acs.langmuir.8b02292
Assessing the osteogenic potential of zirconia and titanium surfaces with an advanced <i>in vitro</i> model
Rottmar, M., Müller, E., Guimond-Lischer, S., Stephan, M., Berner, S., & Maniura-Weber, K. (2019). Assessing the osteogenic potential of zirconia and titanium surfaces with an advanced in vitro model. Dental Materials, 35(1), 74-86. https://doi.org/10.1016/j.dental.2018.10.008
Mussel-inspired injectable hydrogel adhesive formed under mild conditions features near-native tissue properties
Wei, K., Senturk, B., Matter, M. T., Wu, X., Herrmann, I. K., Rottmar, M., & Toncelli, C. (2019). Mussel-inspired injectable hydrogel adhesive formed under mild conditions features near-native tissue properties. ACS Applied Materials and Interfaces, 11, 47707-47719. https://doi.org/10.1021/acsami.9b16465
In vitro endothelialization of surface-integrated nanofiber networks for stretchable blood interfaces
Weidenbacher, L., Müller, E., Guex, A. G., Zündel, M., Schweizer, P., Marina, V., … Fortunato, G. (2019). In vitro endothelialization of surface-integrated nanofiber networks for stretchable blood interfaces. ACS Applied Materials and Interfaces, 11(6), 5740-5751. https://doi.org/10.1021/acsami.8b18121