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Garmendia Urdalleta, A. (author), van Poll, M.A. (author), Fahy, Niamh (author), Witte-Bouma, Janneke (author), van Wamel, Willem (author), Apachitei, I. (author), Zadpoor, A.A. (author), Fratila-Apachitei, E.L. (author), Farrell, Eric (author)
Macrophage responses following the implantation of orthopaedic implants are essential for successful implant integration in the body, partly through intimate crosstalk with human marrow stromal cells (hMSCs) in the process of new bone formation. Additive manufacturing (AM) and plasma electrolytic oxidation (PEO) in the presence of silver...
journal article 2023
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Razzi, F. (author), Fratila-Apachitei, E.L. (author), Fahy, N. (author), Bastiaansen-Jenniskens, Yvonne M. (author), Apachitei, I. (author), Farrell, E. (author), Zadpoor, A.A. (author)
Additive manufacturing (AM) techniques have provided many opportunities for the rational design of porous metallic biomaterials with complex and precisely controlled topologies that give rise to unprecedented combinations of mechanical, physical, and biological properties. These favorable properties can be enhanced by surface...
journal article 2020
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van Hengel, I.A.J. (author), Riool, Martijn (author), Fratila-Apachitei, E.L. (author), Witte-Bouma, Janneke (author), Farrell, Eric (author), Zadpoor, A.A. (author), Zaat, Sebastian A.J. (author), Apachitei, I. (author)
Additively manufactured Ti-6Al-4V implants were biofunctionalized using plasma electrolytic oxidation. At various time points during this process scanning electron microscopy imaging was performed to analyze the surface morphology (van Hengel et al., 2017) [1]. This data shows the changes in surface morphology during plasma electrolytic...
journal article 2017