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Journal Article

Fonseca, K. B., Gomes, D. B., Lee, K., Santos, S. G., Sousa, A., Silva, E. A., Mooney, D. J., Granja, P. L., & Barrias, C. C. (2014). Injectable MMP-sensitive alginate hydrogels as hMSC delivery systems. Biomacromolecules, 15(1), 380 - 390.

Moreira, H. R., Munarin, F., Gentilini, R., Visai, L., Granja, P. L., Tanzi, M. C., & Petrini, P. (2014). Injectable pectin hydrogels produced by internal gelation: PH dependence of gelling and rheological properties. Carbohydrate Polymers, 103(1), 339 - 347.

Maia, F. R., Fonseca, K. B., Rodrigues, G., Granja, P. L., & Barrias, C. C. (2014). Matrix-driven formation of mesenchymal stem cell-extracellular matrix microtissues on soft alginate hydrogels. Acta Biomaterialia, 10(7), 3197 - 3208.

Granja, P. L., Ribeiro, C. C., De Jéso, B., Baquey, C., & Barbosa, M. A. (2001). Mineralization of regenerated cellulose hydrogels. Journal of Materials Science: Materials in MedicineJ. Mater. Sci. Mater. Med., 12(9), 785 - 791.

Granja, P. L., De Jéso, B., Bareille, R., Rouais, F., Baquey, C., & Barbosa, M. A. (2005). Mineralization of regenerated cellulose hydrogels induced by human bone marrow stromal cells. European Cells and MaterialsEur. Cells and Mater., 10, 31 - 39.

Fonseca, K. B., Bidarra, S. J., Oliveira, M. J., Granja, P. L., & Barrias, C. C. (2011). Molecularly designed alginate hydrogels susceptible to local proteolysis as three-dimensional cellular microenvironments. Acta BiomaterialiaActa Biomater., 7(4), 1674 - 1682.

Guerreiro, S. G., Oliveira, M. J., Barbosa, M. A., Soares, R., & Granja, P. L. (2014). Neonatal human dermal fibroblasts immobilized in RGD-alginate induce angiogenesis. Cell Transplantation, 23(8), 945 - 957.

Santos, J. L., Pandita, D., Rodrigues, J., Pêgo, A. P., Granja, P. L., & Tomás, H. (2011). Non-viral gene delivery to mesenchymal stem cells: Methods, strategies and application in bone tissue engineering and regeneration. Current Gene TherapyCurr. Gene Ther., 11(1), 46 - 57.

Santos, J. L., Oramas, E., Pêgo, A. P., Granja, P. L., & Tomás, H. (2009). Osteogenic differentiation of mesenchymal stem cells using PAMAM dendrimers as gene delivery vectors. Journal of Controlled ReleaseJ. Control. Release, 134(2), 141 - 148.

Munarin, F., Guerreiro, S. G., Grellier, M. A., Tanzi, M. C., Barbosa, M. A., Petrini, P., & Granja, P. L. (2011). Pectin-based injectable biomaterials for bone tissue engineering. BiomacromoleculesBiomacromolecules, 12(3), 568 - 577.

Barbosa, M. A., Granja, P. L., Barrias, C. C., & Amaral, I. F. (2005). Polysaccharides as scaffolds for bone regeneration. ITBM-RBMITBM-RBM, 26(3), 212 - 217.

Santos, J. L., Pandita, D., Rodrigues, J., Pêgo, A. P., Granja, P. L., Balian, G., & Tomás, H. (2010). Receptor-mediated gene delivery using PAMAM dendrimers conjugated with peptides recognized by mesenchymal stem cells. Molecular PharmaceuticsMol. Pharm., 7(3), 763 - 774.

Vasconcelos, D. M., Falentin-Daudré, C., Blanquaert, D., Thomas, D., Granja, P. L., & Migonney, V. (2014). Role of protein environment and bioactive polymer grafting in the S. epidermidis response to titanium alloy for biomedical applications. Materials Science and Engineering C, 45, 176 - 183.

Evangelista, M. B., Hsiong, S. X., Fernandes, R., Sampaio, P., Kong, H. - J., Barrias, C. C., Salema, R., Barbosa, M. A., Mooney, D. J., & Granja, P. L. (2007). Upregulation of bone cell differentiation through immobilization within a synthetic extracellular matrix. BiomaterialsBiomaterials, 28(25), 3644 - 3655.

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