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Orthopaedic Proceedings
Vol. 100-B, Issue SUPP_4 | Pages 45 - 45
1 Apr 2018
Markhoff J Weinmann M Schulze C Nebe B Bader R
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Nowadays, biomaterials can be used to maintain or replace several functions of the human body being constricted or lost due to tumors, fractures, injuries as well as chronic diseases, infections or simply aging. Titanium and its alloys, i.e. Ti6Al4V are the most common materials (70 to 80%) used for structural orthopedic implants due to their unique combination of good mechanical properties, corrosion resistance and biocompatibility. Addition of β-stabilizers, e. g. niobium (Nb), can improve the mechanical properties of such titanium alloys further, simultaneously offering excellent biocompatibility. Previous studies concerning biocompatibility analyses with niobium and especially Ti-42Nb specimens are rarely described; none for niobium and Ti-42Nb powders examining human cell viability, collagen and interleukin synthesis. In this in vitro study, human osteoblasts were cultured on different roughened niobium specimens (Nb Amperit, Nb Ampertec), Nb sheets and spherical Ti-42Nb (sintered and 3D-printed by selective laser melting, SLM) and compared with forged Ti6Al4V specimens. Furthermore, human osteoblasts were incubated with particulates of the Nb and Ti-42Nb specimens in three particle concentrations over four and seven days to imitate influence of wear debris against the background of osteolysis and aseptic implant loosening. Thereby, the specimens with the roughest surfaces, i.e. Ti-42Nb and Nb Ampertec, revealed excellent and similar results concerning cell viability (WST-1 test, live-dead staining) and collagen-I synthesis superior to forged Ti6Al4V. Examinations with particulate debris disclosed a significant dose-dependent influence of all powders with Nb Ampertec showing the highest decrease of cell viability and collagen-I synthesis. Furthermore, interleukin expression was only slightly increased for all powders. In summary, from a cell-biological point of view Nb Ampertec (sintered Nb) and Ti-42Nb materials seem to be superior alternatives for medical applications compared to common materials like forged Ti6Al4V.