Up a level |
Delattre, L., Naasri, S., Solano, A. G., Therriault, H., Bergeron-Fortier, S., Moreau, V., Liberelle, B., De Crescenzo, G., Lauzon, M.-A., Faucheux, N., Paquette, B., & Virgilio, N. (2024). The role of pore size and mechanical properties on the accumulation, retention and distribution of F98 glioblastoma cells in macroporous hydrogels. Biomedical Materials, 31 pages. External link
Gascon, S., Solano, A. G., El Kheir, W., Therriault, H., Berthelin, P., Cattier, B., Marcos, B., Virgilio, N., Paquette, B., Faucheux, N., & Lauzon, M.-A. (2020). Characterization and Mathematical Modeling of Alginate/Chitosan-Based Nanoparticles Releasing the Chemokine CXCL12 to Attract Glioblastoma Cells. Pharmaceutics, 12(4), 356 (21 pages). External link
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. External link
Solano, A. G., Dupuy, J., Therriault, H., Liberelle, B., Faucheux, N., Lauzon, M.-A., Virgilio, N., & Paquette, B. (2021). An alginate-based macroporous hydrogel matrix to trap cancer cells. Carbohydrate Polymers, 266, 9 pages. External link