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Alaimo Laura

Main Referenced Co-authors
GABRIELE, Sylvain  (12)
Mohammed, Danahe  (7)
Bruyere, Céline  (6)
VERSAEVEL, Marie  (6)
LUCIANO, Marine  (5)
Main Referenced Unit & Research Centers
CIRMAP - Centre d'Innovation et de Recherche en Matériaux Polymères (1)
Main Referenced Disciplines
Chemistry (12)
Biochemistry, biophysics & molecular biology (11)

Publications (total 12)

The most downloaded
22 downloads
Mohammed, D., Pardon, G., Versaevel, M., Bruyere, C., Alaimo, L., Luciano, M., Vercruysse, E., Pruitt, B. L., & Gabriele, S. (2020). Producing collagen micro-stripes with aligned fibers for cell migration assays. Cellular and Molecular Bioengineering, 87-98. https://hdl.handle.net/20.500.12907/32082

The most cited

61 citations (Scopus®)

Lantoine, J., Grevesse, T., Villers, A., Delhaye, G., Versaevel, M., Mohammed, D., Bruyere, C., Alaimo, L., Lacour, S., Ris, L., & Gabriele, S. (26 February 2016). Matrix stiffness modulates formation and activity of neuronal networks of controlled architectures. Biomaterials, 89, 14-24. https://hdl.handle.net/20.500.12907/18795

Mohammed, D., Pardon, G., Versaevel, M., Bruyere, C., Alaimo, L., Luciano, M., Vercruysse, E., Pruitt, B. L., & Gabriele, S. (2020). Producing collagen micro-stripes with aligned fibers for cell migration assays. Cellular and Molecular Bioengineering, 87-98.
Peer Reviewed verified by ORBi

Bruyere, C., Versaevel, M., Mohammed, D., Alaimo, L., Luciano, M., Vercruysse, E., & Gabriele, S. (05 October 2019). Actomyosin contractility scales with myoblast elongation and enhances differentiation through YAP nuclear export. Scientific Reports, 9 (15565).
Peer reviewed

Mohammed, D., Versaevel, M., Bruyere, C., Alaimo, L., Luciano, M., Vercruysse, E., Proces, A., & Gabriele, S. (20 August 2019). Innovative tools for mechanobiology: unravelling outside-in and inside-out mechanotransduction. Frontiers in Bioengineering and Biotechnology, 7, 162.
Peer reviewed

Mohammed, D., Charras, G., Vercruysse, E., Versaevel, M., Lantoine, J., Alaimo, L., Bruyere, C., Luciano, M., Glinel, K., Delhaye, G., Theodoly, O., & Gabriele, S. (03 June 2019). Substrate area confinement is a key determinant of cell velocity in collective migration. Nature Physics, 15, 858-866.
Peer Reviewed verified by ORBi

Versaevel, M., Alaimo, L., Luciano, M., Mohammed, D., Vercruysse, E., & Gabriele, S. (11 May 2019). Collective migration during a gap closure in a two-dimensional haptotactic model [Poster presentation]. Approche quantitative du vivant, Hyères, France.

Alaimo, L., & Gabriele, S. (04 July 2017). 3D confined tubular epithelia in microfluidic channels [Poster presentation]. The 4th Researchers' Workshop of the Materials Research Institute, Mons, Belgium.

Versaevel, M., Riaz, M., Corne, T., Grevesse, T., Lantoine, J., Mohammed, D., Bruyere, C., Alaimo, L., De Vos, W., & Gabriele, S. (02 January 2017). Probing cytoskeletal pre-stress and nuclear mechanics in endothelial cells with spatiotemporally controlled (de-) adhesion kinetics on micropatterned substrates. Cell Adhesion and Communication, 11 (1), 98-109.
Peer Reviewed verified by ORBi

Alaimo, L., & Gabriele, S. (04 December 2016). 3D confined tubular epithelia in microfluidic channels [Poster presentation]. American Society for Cell Biology, San Francisco, United States - California.

Alaimo, L., & Gabriele, S. (28 November 2016). 3D confined epithelial tissues in microfluidic channels [Poster presentation]. Biological and bio-inspired adhesion meeting, Research Institute for Biosciences, UMONS, Belgium.

Alaimo, L., & Gabriele, S. (07 November 2016). 3D confined tubular epithelia in microfluidic channels [Poster presentation]. GDR Physique de la Cellule aux Tissus, Arcachon, France.

Alaimo, L., & Gabriele, S. (05 July 2016). 3D confined epithelial tissues in microfluidic channels [Poster presentation]. The 3rd Researcher's Day of the Materials Research Institute -UMONS, Mons, Belgium.

Lantoine, J., Grevesse, T., Villers, A., Delhaye, G., Versaevel, M., Mohammed, D., Bruyere, C., Alaimo, L., Lacour, S., Ris, L., & Gabriele, S. (26 February 2016). Matrix stiffness modulates formation and activity of neuronal networks of controlled architectures. Biomaterials, 89, 14-24.
Peer Reviewed verified by ORBi

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