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Lipoconstruct surface topography grating size influences vascularization onset in the dorsal skinfold chamber model
McLuckie, M., Robotti, F., Sanchez-Macedo, N., Enderlin, D., Frese, L., Cheng, P. F., … Lindenblatt, N. (2020). Lipoconstruct surface topography grating size influences vascularization onset in the dorsal skinfold chamber model. Acta Biomaterialia, 106, 136-144. https://doi.org/10.1016/j.actbio.2020.01.050
Role of the nuclear membrane protein emerin in front-rear polarity of the nucleus
Nastały, P., Purushothaman, D., Marchesi, S., Poli, A., Lendenmann, T., Kidiyoor, G. R., … Maiuri, P. (2020). Role of the nuclear membrane protein emerin in front-rear polarity of the nucleus. Nature Communications, 11(1), 2122 (12 pp.). https://doi.org/10.1038/s41467-020-15910-9
Microengineered biosynthesized cellulose as anti-fibrotic <em>in vivo</em> protection for cardiac implantable electronic devices
Robotti, F., Sterner, I., Bottan, S., Monné Rodríguez, J. M., Pellegrini, G., Schmidt, T., … Starck, C. (2020). Microengineered biosynthesized cellulose as anti-fibrotic in vivo protection for cardiac implantable electronic devices. Biomaterials, 229, 119583 (12 pp.). https://doi.org/10.1016/j.biomaterials.2019.119583
Antibacterial, cytocompatible, sustainably sourced: cellulose membranes with bifunctional peptides for advanced wound dressings
Weishaupt, R., Zünd, J. N., Heuberger, L., Zuber, F., Faccio, G., Robotti, F., … Guex, A. G. (2020). Antibacterial, cytocompatible, sustainably sourced: cellulose membranes with bifunctional peptides for advanced wound dressings. Advanced Healthcare Materials, 9(7), 1901850 (13 pp.). https://doi.org/10.1002/adhm.201901850
Force and collective epithelial activities
Ferrari, A., & Giampiertro, C. (2019). Force and collective epithelial activities. In C. A. M. La Porta & S. Zapperi (Eds.), Advances in experimental medicine and biology: Vol. 1146. Cell migrations: causes and functions (pp. 31-44). https://doi.org/10.1007/978-3-030-17593-1_3
Recent technological advancements in traction force microscopy
Ferrari, A. (2019). Recent technological advancements in traction force microscopy. Biophysical Reviews, 11(5), 679-681. https://doi.org/10.1007/s12551-019-00589-0
Science by the sea: how nanoengineering met mechanobiology in Camogli
Ferrari, A., Capitanio, M., Vassalli, M., & Martinac, B. (2019). Science by the sea: how nanoengineering met mechanobiology in Camogli. Biophysical Reviews, 11(5), 659-661. https://doi.org/10.1007/s12551-019-00598-z
Cellogram: on-the-fly traction force microscopy
Lendenmann, T., Schneider, T., Dumas, J., Tarini, M., Giampietro, C., Bajpai, A., … Panozzo, D. (2019). Cellogram: on-the-fly traction force microscopy. Nano Letters, 19(10), 6742-6750. https://doi.org/10.1021/acs.nanolett.9b01505
Optimized topological and topographical expansion of epithelia
Pramotton, F. M., Robotti, F., Giampietro, C., Lendenmann, T., Poulikakos, D., & Ferrari, A. (2019). Optimized topological and topographical expansion of epithelia. ACS Biomaterials Science & Engineering, 5(8), 3922-3934. https://doi.org/10.1021/acsbiomaterials.8b01346
Honeycomb-structured metasurfaces for the adaptive nesting of endothelial cells under hemodynamic loads
Bachmann, B. J., Giampietro, C., Bayram, A., Stefopoulos, G., Michos, C., Graeber, G., … Ferrari, A. (2018). Honeycomb-structured metasurfaces for the adaptive nesting of endothelial cells under hemodynamic loads. Biomaterials Science, 6(10), 2726-2737. https://doi.org/10.1039/c8bm00660a
Adaptive reorientation of endothelial collectives in response to strain
Bernardi, L., Giampietro, C., Marina, V., Genta, M., Mazza, E., & Ferrari, A. (2018). Adaptive reorientation of endothelial collectives in response to strain. Integrative Biology, 10(9), 527-538. https://doi.org/10.1039/c8ib00092a
Cell cycle–dependent force transmission in cancer cells
Panagiotakopoulou, M., Lendenmann, T., Pramotton, F. M., Giampietro, C., Stefopoulos, G., Poulikakos, D., & Ferrari, A. (2018). Cell cycle–dependent force transmission in cancer cells. Molecular Biology of the Cell, 29(21), 2528-2539. https://doi.org/10.1091/mbc.E17-12-0726