Percorrer por assunto Bone tissue engineering

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DataTítuloAutor(es)TipoAcesso
7-Dez-2022About 3D printability of thermoplastic collagen for biomedical applicationsPassos, Marina; Zankovic, Sergej; Minas, Graça, et al.ArtigoAcesso aberto
Jun-2011Antimicrobial functionalized genetically engineered spider silkGomes, Sílvia C.; Leonor, I. B.; Mano, J. F., et al.ArtigoAcesso aberto
2013Bioactive macro/micro porous silk fibroin/Nano-sized calcium phosphate scaffolds with potential for bone tissue engineering applicationsYan, Leping; Silva-Correia, Joana; Correia, C., et al.ArtigoAcesso aberto
2012Bioactive starch-based scaffolds and human adipose stem cells are a good combination for bone tissue engineeringRodrigues, A. I.; Gomes, Manuela E.; Leonor, I. B., et al.ArtigoAcesso aberto
2015Biomimetic strategies to engineer mineralised human tissuesPina, S.; Oliveira, J. M.; Reis, R. L.Capítulo de livroAcesso aberto
2014Bottom-up approach to construct microfabricated multi-layer scaffolds for bone tissue engineeringLima, M. J.; Pirraco, Rogério P.; Sousa, R. A., et al.ArtigoAcesso restrito UMinho
2007Calcium-phosphate derived from mineralized algae for bone tissue engineering applicationsOliveira, Joaquim M.; Grech, Jessica M. R.; Leonor, I. B., et al.ArtigoAcesso aberto
8-Out-2021Carbon nanotubes-reinforced cell-derived matrix-silk fibroin hierarchical scaffolds for bone tissue engineering applicationsLemos, Rafael André ValenteDissertação de mestrado Acesso aberto
Out-2006A comparative analysis of scaffold material modifications for load-bearing applications in bone tissue engineeringChim, H.; Hutmacher, D. W.; Chou, A., et al.ArtigoAcesso aberto
2009Contribution of outgrowth endothelial cells from human peripheral blood on in vivo vascularization of bone tissue engineered constructs based on starch polycaprolactone scaffoldsFuchs, Sabine; Ghanaati, Shahram; Orth, Carina, et al.ArtigoAcesso aberto
Set-2013De novo bone formation on macro/microporous silk and silk/nano-sized calcium phosphate scaffoldsYan, Leping; Salgado, A. J.; Oliveira, Joaquim M., et al.ArtigoAcesso aberto
2023Degradation and mineralization of electroactive poly(3-hydroxybutyrate-co-3-hydroxyvalerate) electrospun fibers for bone tissue engineeringMarques-Almeida, Teresa; Lanceros-Méndez, S.; Ribeiro, Clarisse Marta OliveiraArtigoAcesso restrito UMinho
Abr-2011Development of osteogenic cell sheets for bone tissue engineering applicationsPirraco, Rogério; Obokata, Haruko; Iwata, Takanori, et al.ArtigoAcesso aberto
2002Drug delivery therapies I: general trends and its importance on bone tissue engineering applicationsMalafaya, P. B.; Silva, G. A.; Reis, R. L.ArtigoAcesso restrito UMinho
2002Drug delivery therapies II: strategies for delivering bone regenerating factorsMalafaya, P. B.; Silva, G. A.; Baran, E. T., et al.ArtigoAcesso restrito UMinho
2003Effect of flow perfusion on the osteogenic differentiation of bone marrow stromal cells cultured on starch-based three dimensional scaffoldsGomes, Manuela E.; Sikavitsas, V. I.; Behravesh, E., et al.ArtigoAcesso aberto
Jun-2008Endothelial cell colonization and angiogenic potential of combined nano- and micro-fibrous scaffolds for bone tissue engineeringSantos, Marina I.; Tuzlakoglu, K.; Fuchs, Sabine, et al.ArtigoAcesso aberto
Jun-2014Endothelial cells enhance the in vivo bone-forming ability of osteogenic cell sheetsPirraco, Rogério; Iwata, Takanori; Yoshida, T., et al.ArtigoAcesso aberto
Fev-2018Gellan gum-hydroxyapatite composite spongy-like hydrogels for bone tissue engineeringManda-Guiba, G. M.; Silva, Lucília Pereira; Cerqueira, Mariana Teixeira, et al.ArtigoAcesso restrito autor
2011In situ functionalization of wet-spun fibre meshes for bone tissue engineeringLeonor, I. B.; Rodrigues, Márcia T.; Gomes, Manuela E., et al.ArtigoAcesso aberto
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