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Book

Shirosaki, Y., Tsuru, K., Hayakawa, S., & Osaka, A. (2008). Biodegradable chitosan-silicate porous hybrids for drug delivery. Key Engineering MaterialsKey Eng Mat (Vol. 361-363 II, pp. 1219 - 1222).

Cortez, P. P., Shirosaki, Y., Botelho, C. M., Simões, M. J., Gartner, F., Da Costa, R. M. G., Tsuru, K., Hayakawa, S., Osaka, A., Lopes, M. A., Santos, J. D., & Maurício, A. C. (2008). Hybrid chitosan membranes tested in sheep for guided tissue regeneration. Key Engineering MaterialsKey Eng Mat (Vol. 361-363 II, pp. 1265 - 1268).

Tsuru, K., Shirosaki, Y., Hayakawa, S., Osaka, A., Lopes, M. A., Santos, J. D., & Fernandas, M. H. (2005). In vitro biodegradability of chitosan-organosiloxane hybrid membrane. Key Engineering MaterialsKey Eng Mat (Vol. 284-286, pp. 823 - 826).

Shirosaki, Y., Tsuru, K., Hayakawa, S., Osaka, A., Lopes, M. A., Santos, J. D., & Fernandes, M. H. (2004). In Vitro Cytocompatibility of Osteoblastic Cells Cultured on Chitosan-Organosiloxane Hybrid Membrane. (B. M.A., F.J., M., R., C., & B., L., Eds.)Key Engineering MaterialsKey Eng Mat (Vol. 254-256, pp. 857 - 860).

Journal Article

Amaral, I. F., Cordeiro, A. L., Sampaio, P., & Barbosa, M. A. (2007). Attachment, spreading and short-term proliferation of human osteoblastic cells cultured on chitosan films with different degrees of acetylation. Journal of Biomaterials Science, Polymer EditionJ. Biomater. Sci. Polym. Ed., 18(4), 469 - 485.

Pereira, C. L., Antunes, J. C., Gonçalves, R. M., Ferreira-da-Silva, F., & Barbosa, M. A. (2012). Biosynthesis of highly pure poly-γ-glutamic acid for biomedical applications. Journal of Materials Science: Materials in MedicineJ. Mater. Sci. Mater. Med., 23(7), 1583 - 1591.

Costa, F., Maia, S., Gomes, J., Gomes, P., & Martins, M. C. L. (2014). Characterization of hLF1-11 immobilization onto chitosan ultrathin films, and its effects on antimicrobial activity. Acta Biomaterialia, 10(8), 3513 - 3521.

Amaral, I. F., Granja, P. L., & Barbosa, M. A. (2005). Chemical modification of chitosan by phosphorylation: An XPS, FT-IR and SEM study. Journal of Biomaterials Science, Polymer EditionJ. Biomater. Sci. Polym. Ed., 16(12), 1575 - 1593.

Maya, S., Sarmento, B., Lakshmanan, V. - K., Menon, D., Seabra, V., & Jayakumar, R. (2014). Chitosan cross-linked docetaxel loaded EGF receptor targeted nanoparticles for lung cancer cells. International Journal of Biological Macromolecules, 69, 532 - 541.

Oliveira, M. I., Santos, S. G., Oliveira, M. J., Torres, A. L., & Barbosa, M. A. (2012). Chitosan drives anti-inflammatory macrophage polarisation and pro-inflammatory dendritic cell stimulation. European cells & materialsEur Cell Mater, 24, 136 - 152; discussion 152-153.

Oliveira, H., Pires, L. R., Fernandez, R., Martins, M. C. L., Simões, S., & Pêgo, A. P. (2010). Chitosan-based gene delivery vectors targeted to the peripheral nervous system. Journal of Biomedical Materials Research - Part AJ. Biomed. Mater. Res. Part A, 95(3 A), 801 - 810.

Shrestha, N., Shahbazi, M. - A., Araújo, F., Zhang, H., Mäkilä, E. M., Kauppila, J., Sarmento, B., Salonen, J. J., Hirvonen, J. T., & Santos, H. A. (2014). Chitosan-modified porous silicon microparticles for enhanced permeability of insulin across intestinal cell monolayers. Biomaterials, 35(25), 7172 - 7179.

Mittnacht, U., Hartmann, H., Hein, S., Oliveira, H., Dong, M., Pêgo, A. P., Kjems, J., Howard, K. A., & Schlosshauer, B. (2010). Chitosan/siRNA nanoparticles biofunctionalize nerve implants and enable neurite outgrowth. Nano LettersNano Lett., 10(10), 3933 - 3939.

Oliveira, S. M., Amaral, I. F., Barbosa, M. A., & Teixeira, C. C. (2009). Engineering endochondral bone: In vitro studies. Tissue Engineering - Part ATissue Eng. Part A, 15(3), 625 - 634.

Oliveira, S. M., Mijares, D. Q., Turner, G., Amaral, I. F., Barbosa, M. A., & Teixeira, C. C. (2009). Engineering endochondral bone: In vivo studies. Tissue Engineering - Part ATissue Eng. Part A, 15(3), 635 - 643.

Almeida, C. R., Vasconcelos, D. P., Gonçalves, R. M., & Barbosa, M. A. (2012). Enhanced mesenchymal stromal cell recruitment via natural killer cells by incorporation of inflammatory signals in biomaterials. Journal of the Royal Society InterfaceJ. R. Soc. Interface, 9(67), 261 - 271.

Barbosa, J. N., Amaral, I. F., Águas, A. P., & Barbosa, M. A. (2010). Evaluation of the effect of the degree of acetylation on the inflammatory response to 3D porous chitosan scaffolds. Journal of Biomedical Materials Research - Part AJ. Biomed. Mater. Res. Part A, 93(1), 20 - 28.

Amaral, I. F., Unger, R. E., Fuchs, S., Mendonça, A. M., Sousa, S. R., Barbosa, M. A., Pêgo, A. P., & Kirkpatrick, C. J. (2009). Fibronectin-mediated endothelialisation of chitosan porous matrices. BiomaterialsBiomaterials, 30(29), 5465 - 5475.

Amaral, I. F., Granja, P. L., Melo, L. V., Saramago, B., & Barbosa, M. A. (2006). Functionalization of chitosan membranes through phosphorylation: Atomic force microscopy, wettability, and cytotoxicity studies. Journal of Applied Polymer ScienceJ. Appl. Polym. Sci., 102(1), 276 - 284.

Araújo, F., Shrestha, N., Shahbazi, M. - A., Fonte, P., Mäkilä, E. M., Salonen, J. J., Hirvonen, J. T., Granja, P. L., Santos, H. A., & Sarmento, B. (2014). The impact of nanoparticles on the mucosal translocation and transport of GLP-1 across the intestinal epithelium. Biomaterials, 35(33), 9199 - 9207.

Moreira, C., Oliveira, H., Pires, L. R., Simões, S., Barbosa, M. A., & Pêgo, A. P. (2009). Improving chitosan-mediated gene transfer by the introduction of intracellular buffering moieties into the chitosan backbone. Acta BiomaterialiaActa Biomater., 5(8), 2995 - 3006.

Shirosaki, Y., Tsuru, K., Hayakawa, S., Osaka, A., Lopes, M. A., Santos, J. D., & Fernandes, M. H. (2005). In vitro cytocompatibility of MG63 cells on chitosan-organosiloxane hybrid membranes. BiomaterialsBiomaterials, 26(5), 485 - 493.

Antunes, J. C., Pereira, C. L., Molinos, M., Ferreira-da-Silva, F., Dessi, M., Gloria, A., Ambrosio, L., Gonca̧lves, R. M., & Barbosa, M. A. (2011). Layer-by-layer self-assembly of chitosan and poly(γ-glutamic acid) into polyelectrolyte complexes. BiomacromoleculesBiomacromolecules, 12(12), 4183 - 4195.

Gonçalves, R. M., Antunes, J. C., & Barbosa, M. A. (2012). Mesenchymal stem cell recruitment by stromal derived factor-1-delivery systems based on chitosan/poly(γ-glutamic acid) polyelectrolyte complexes. European Cells and MaterialsEur. Cells and Mater., 23, 249 - 261.

Gonçalves, N. P., Oliveira, H., Pêgo, A. P., & Saraiva, M. J. (2012). A novel nanoparticle delivery system for in vivo targeting of the sciatic nerve: Impact on regeneration. NanomedicineNanomedicine, 7(8), 1167 - 1180.

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