| Data | Título | Autor(es) | Tipo | Acesso |
| Dez-2009 | Biodegradable polymeric fiber structures in tissue engineering | Tuzlakoglu, K.; Reis, R. L. | Artigo | Acesso aberto |
| 2008 | Conjugation of fibroin and starch to chitosan for increasing cell proliferation capacity | Baran, E. T.; Tuzlakoglu, K.; Mano, J. F., et al. | Resumo em ata de conferência | Acesso aberto |
| 2011 | Design of nano- and microfiber combined scaffolds by electrospinning of collagen onto starch-based fiber meshes : a man-made equivalent of natural extracellular matrix | Tuzlakoglu, K.; Santos, Marina I.; Neves, N. M., et al. | Artigo | Acesso aberto |
| Jun-2008 | Endothelial cell colonization and angiogenic potential of combined nano- and micro-fibrous scaffolds for bone tissue engineering | Santos, Marina I.; Tuzlakoglu, K.; Fuchs, Sabine, et al. | Artigo | Acesso aberto |
| Ago-2012 | Enzymatic degradation behavior and cytocompatibility of silk fibroin–starch–chitosan conjugate membranes | Baran, E. T.; Tuzlakoglu, K.; Mano, J. F., et al. | Artigo | Acesso aberto |
| 18-Jan-2008 | Fiber-based structures from natural origin polymers for tissue engineering approches | Tuzlakoglu, K. | Tese de doutoramento | Acesso aberto |
| 2007 | Formation of bone-like apatite layer on chitosan fiber mesh scaffolds by a biomimetic spraying process | Tuzlakoglu, K.; Reis, R. L. | Artigo | Acesso aberto |
| 2010 | In vivo short and long term host reaction to starch-based scaffolds | Santos, T. C.; Marques, A. P.; Hoering, B., et al. | Artigo | Acesso aberto |
| Abr-2009 | Incorporation of a sequential BMP-2/BMP-7 delivery system into chitosan-based scaffolds for bone tissue engineering | Yilgor, Pinar; Tuzlakoglu, K.; Reis, R. L., et al. | Artigo | Acesso aberto |
| 2007 | Influence of porosity and fibre diameter on the degradation of chitosan fibre-mesh scaffolds and cell adhesion | Reis, C. Cunha; Tuzlakoglu, K.; Baas, E., et al. | Artigo | Acesso aberto |
| 2014 | Influence of scaffold composition over in vitro osteogenic differentiation of hBMSCs and in vivo inflammatory response | Pinto, A. R.; Vargel, I.; Tuzlakoglu, K., et al. | Artigo | Acesso restrito UMinho |
| 2008 | Investigation of osteoblast response to biodegradable bacterial cellulose scaffolds | Babac, C.; Tuzlakoglu, K.; Kutsal, T., et al. | Resumo em ata de conferência | Acesso aberto |
| Jun-2011 | Microchannel-patterned and heparin micro-contact-printed biodegradable composite membranes for tissue-engineering applications | Baran, Erkan Türker; Tuzlakoglu, K.; Salgado, A. J., et al. | Artigo | Acesso aberto |
| 2004 | Multichannel mould processing of 3D structures from microporous coralline hydroxyapatite granules and chitosan support materials for guided tissue regeneration/engineering | Baran, E. T.; Tuzlakoglu, K.; Salgado, A. J., et al. | Artigo | Acesso aberto |
| 2005 | Nano- and micro-fiber combined scaffolds : a new architecture for bone tissue engineering | Tuzlakoglu, K.; Bolgen, N.; Salgado, A. J., et al. | Artigo | Acesso aberto |
| 2010 | A new route to produce starch-based fiber mesh scaffolds by wet spinning and subsequent surface modification as a way to improve cell attachment and proliferation | Tuzlakoglu, K.; Pashkuleva, I.; Rodrigues, Márcia T., et al. | Artigo | Acesso aberto |
| 2008 | A novel enzymatically-mediated drug delivery carrier for bone tissue engineering applications: combining biodegradable starch-based microparticles and differentiation agents | Balmayor, Elizabeth Rosado; Tuzlakoglu, K.; Marques, A. P., et al. | Artigo | Acesso aberto |
| 2009 | Preparation and characterization of starch-poly-epsilon-caprolactone microparticles incorporating bioactive agents for drug delivery and tissue engineering applications | Balmayor, Elizabeth Rosado; Tuzlakoglu, K.; Azevedo, Helena S., et al. | Artigo | Acesso aberto |
| 2004 | Production and characterization of chitosan fibers and 3-D fiber mesh scaffolds for tissue engineering applicattions | Tuzlakoglu, K.; Alves, C. M.; Mano, J. F., et al. | Artigo | Acesso aberto |
| 15-Set-2011 | Thermoresponsive poly(N-isopropylacrylamide)-g-methylcellulose hydrogel as a three-dimensional extracellular matrix for cartilage-engineered applications | Sá-Lima, Helena; Tuzlakoglu, K.; Mano, J. F., et al. | Artigo | Acesso restrito UMinho |
