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Pares, L., Naasri, S., Delattre, L., Therriault, H., Liberelle, B., De Crescenzo, G., Lauzon, M.-A., Faucheux, N., Paquette, B., & Virgilio, N. (2024). Macroporous chitosan/alginate hydrogels crosslinked with genipin accumulate and retain glioblastoma cancer cells. RSC Advances, 14(48), 35286-35304. Disponible
Stil, A., Liberelle, B., Lacomme, L., Arpin, L., Parent, P., Nanci, A., Dumont, E. C., Ould-Bachir, T., Vanni, M. P., De Crescenzo, G., & Bouchard, J.-F. (2023). A simple method for poly-D-lysine coating to enhance adhesion and maturation of primary cortical neuron cultures in vitro. Frontiers in Cellular Neuroscience, 17, 18 pages. Disponible
Dégardin, M., Gaudreault, J., Oliverio, R., Serafin, B., Forest-Nault, C., Liberelle, B., & De Crescenzo, G. (2023). Grafting Strategies of Oxidation-Prone Coiled-Coil Peptides for Protein Capture in Bioassays: Impact of Orientation and the Oxidation State. ACS Omega, 8(31), 28301-28313. Disponible
Safi, C., Solano, A. G., Liberelle, B., Therriault, H., Delattre, L., Abdelkhalek, M., Wang, C., Bergeron-Fortier, S., Moreau, V., De Crescenzo, G., Faucheux, N., Lauzon, M.-A., Paquette, B., & Virgilio, N. (2022). Effect of Chitosan on alginate-based macroporous hydrogels for the capture of glioblastoma cancer cells. ACS Applied Bio Materials, 5(9), 4531-4540. Lien externe
Oliverio, R., Patenaude, V., Liberelle, B., Virgilio, N., Banquy, X., & De Crescenzo, G. (2022). Macroporous dextran hydrogels for controlled growth factor capture and delivery using coiled-coil interactions. Acta Biomaterialia, 153, 190-203. Lien externe
Shrestha, B. R., Liberelle, B., Murschel, F., Purisima, E. O., Sulea, T., De Crescenzo, G., & Banquy, X. (2021). Binding mechanism of a de novo coiled coil complex elucidated from surface forces measurements. Journal of Colloid and Interface Science, 581, 218-225. Lien externe
Liberelle, B., Jalali Dil, E., Sabri, F., Favis, B. D., De Crescenzo, G., & Virgilio, N. (2021). Immobilizing enzyme biocatalysts onto porous polymer monoliths prepared from cocontinuous polymer blends. ACS Applied Polymer Materials, 3(12), 6359-6365. Lien externe
Oliverio, R., Liberelle, B., Murschel, F., Garcia-Ac, A., Banquy, X., & De Crescenzo, G. (2020). Versatile and High-Throughput Strategy for the Quantification of Proteins Bound to Nanoparticles. ACS Applied Nano Materials, 3(10), 10497-10507. Lien externe
Tallec, G., Loh, C., Liberelle, B., Garcia-Ac, A., Duy, S. V., Sauve, S., Banquy, X., Murschel, F., & De Crescenzo, G. (2018). Adequate reducing conditions enable conjugation of oxidized peptides to polymers by one-pot thiol click chemistry. Bioconjugate Chemistry, 29(11), 3866-3876. Lien externe
Riahi, N., Liberelle, B., Henry, O., & De Crescenzo, G. (2017). Impact of RGD amount in dextran-based hydrogels for cell delivery. Carbohydrate Polymers, 161, 219-227. Lien externe
Haddad, T., Noël, S., Liberelle, B., El Ayoubi, R., Ajji, A., & De Crescenzo, G. (2016). Fabrication and surface modification of poly lactic acid (PLA) scaffolds with epidermal growth factor for neural tissue engineering. Biomatter, 6(1). Disponible
Lequoy, P., Liberelle, B., De Crescenzo, G., & Lerouge, S. (2014). Additive benefits of chondroitin sulfate and oriented tethered epidermal growth factor for vascular smooth muscle cell survival. Macromolecular Bioscience, 14(5), 720-730. Lien externe
Thalla, P. K., Fadlallah, H., Liberelle, B., Lequoy, P., De Crescenzo, G., Merhi, Y., & Lerouge, S. (2014). Chondroitin sulfate coatings display low platelet but high endothelial cell adhesive properties favorable for vascular implants. Biomacromolecules, 15(7), 2512-2520. Lien externe
Hadjizadeh, A., Ajji, A., Jolicoeur, M., Liberelle, B., & De Crescenzo, G. (2013). Effects of electrospun nanostructure versus microstructure on human aortic endothelial cell behavior. Journal of Biomedical Nanotechnology, 9(7), 1195-1209. Lien externe
Noel, S., Liberelle, B., Yogi, A., Moreno, M. J., Bureau, M., Robitaille, L., & De Crescenzo, G. (2013). A non-damaging chemical amination protocol for poly(ethylene terephthalate)-application to the design of functionalized compliant vascular grafts. Journal of Materials Chemistry B, 1(2), 230-238. Lien externe
Addi, C., Murschel, F., Liberelle, B., Riahi, N., Feraud, O., & De Crescenzo, G. (mai 2016). The addition of the collagen binding domain of fibronectin potentiates the biochemical availability of basic fibroblast growth factor for the culture of induced pluripotent stem cells [Affiche]. 10th World Biomaterials Congress, Montréal, Québec. Publié dans Frontiers in Bioengineering and Biotechnology, 4. Disponible
Savoji, H., Maire, M., Lequoy, P., Liberelle, B., De Crescenzo, G., Wertheimer, M. R., Ajji, A., & Lerouge, S. (mai 2016). Chondroitin sulfate-oriented epidermal growth factor (EGF) coating for random and aligned electrospun vascular grafts [Affiche]. 10th World Biomaterials Congress (WBC 2016), Montréal, Canada. Publié dans Frontiers in Bioengineering and Biotechnology, 4. Disponible
Liberelle, B., Fortier, C., & De Crescenzo, G. (2014). Enhanced ELISA based on carboxymethylated dextran coatings. Dans Cytokine Bioassays (Vol. 1172, p. 39-47). Lien externe