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"Design of Nano- and Microfiber Combined Scaffolds by Electrospinning of Collagen onto Starch-Based Fiber Meshes: A Man-Made Equivalent of Natural Extracellular Matrix",
Tissue Engineering Part A, vol. 17, issue 3-4, pp. 463-473, 2011.
"Surface-modified 3D starch-based scaffold for improved endothelialization for bone tissue engineering",
Journal of Materials Chemistry, vol. 19, issue 24, pp. 4091–4101, 2009.
"Co-culture system of osteoblasts and endothelial cells, an in vitro strategy to enhance vascularization in bone regeneration",
Tissue Engineering Part A, vol. 14, issue 5, pp. 712-712, 2008.
"Natural origin scaffolds with in situ pore forming capability for bone tissue engineering applications",
Acta Biomaterialia, vol. 4, issue 6, pp. 1637-1645, 2008.
"Endothelial cell colonization and angiogenic potential of combined nano- and micro-fibrous scaffolds for bone tissue engineering",
Biomaterials, vol. 29, pp. 4306, 2008.
"Response of micro- and macrovascular endothelial cells to starch-based fiber meshes for bone tissue engineering",
Biomaterials, vol. 28, pp. 240, 2007.
"Nano- and micro-fiber combined scaffolds: An innovative design for improving endothelial cell migration in bone tissue engineering approaches",
Tissue Engineering, vol. 12, issue 4, pp. 986-987, 2006.
"Physical properties and biocompatibility of chitosan/soy blended membranes",
Journal of materials science: materials in medicine , vol. 16, pp. 575-579, 2005.
"Vascularization strategies in tissue engineering",
Natural-based polymers for biomedical applications, Cambridge, 2007.
"Starch-polycaprolactone based scaffolds in bone and cartilage tissue engineering approaches",
Natural-based polymers for biomedical applications, Eds. Reis R. L., Woodhead , Cambridge, 2007.
"Bisphosphonates Incorporated on a Ca-P Biomimetic Coating Produced by a Sodium Silicate Based Methodology Stimulate Osteoblastic Activity",
Bioceramics 17, Trans. Tec. Publications, Zurich, pp. 615, 2004.
