Department of Orthopedics, Xiaoshan Affiliated Hospital of Wenzhou Medical University, Hangzhou, Zhejiang, China.
The Second Clinical Medicine College, Zhejiang Chinese Medical University, Hangzhou, Zhejiang, China.
J Biomater Sci Polym Ed. 2022 Jan;33(1):35-56. doi: 10.1080/09205063.2021.1974812. Epub 2021 Sep 19.
Both tantalum (Ta) and silicon nitride (SN) exhibit osteogenic bioactivity and antibacterial property. In addition, as a biomaterial for bone repair, polyetheretherketone (PEEK) has outstanding biocompatibility and mechanical performances while it is biologically inert. In this study, by blending PEEK with Ta and SN nanoparticles, respectively, Ta/PEEK composite (TPC) and SN/PEEK composite (SPC) were fabricated for load-bearing bone repair. The surface roughness, hydrophilicity and surface energy of TPC containing Ta nanoparticles were higher than SPC containing SN nanoparticles and PEEK. In addition, TPC with Ta nanoparticles exhibited low antibacterial property while SPC with SN nanoparticles showed high bacterial property. Moreover, the MC3T3-E1 cells responses (e.g. proliferation and differentiation) to TPC was the highest while PEEK was the lowest . Furthermore, new bone formation and osseointegration for TPC was the highest while PEEK was the lowest . In conclusion, compared with PEEK, addition of Ta and SN nanoparticles into PEEK fabricated bioactive composites of TPC and SPC with optimized surface property, which played crucial roles in inducing cellular response/bone regeneration. Although the osteogenic activity of SPC was lower than TPC, SPC exhibited osteogenic activity and good antibacterial property, which could prevent infection from bacterial. Therefore, SPC would have better potential for bone substitute.
钽(Ta)和氮化硅(SN)都表现出成骨生物活性和抗菌性能。此外,聚醚醚酮(PEEK)作为一种骨修复生物材料,具有出色的生物相容性和机械性能,同时具有生物惰性。在这项研究中,分别将 PEEK 与 Ta 和 SN 纳米粒子混合,制备了含有 Ta 纳米粒子的 Ta/PEEK 复合材料(TPC)和含有 SN 纳米粒子的 SN/PEEK 复合材料(SPC),用于承重骨修复。含有 Ta 纳米粒子的 TPC 的表面粗糙度、亲水性和表面能高于含有 SN 纳米粒子的 SPC 和 PEEK。此外,含有 Ta 纳米粒子的 TPC 具有低抗菌性能,而含有 SN 纳米粒子的 SPC 具有高抗菌性能。此外,MC3T3-E1 细胞对 TPC 的反应(如增殖和分化)最高,而对 PEEK 的反应最低。此外,TPC 的新骨形成和骨整合最高,而 PEEK 的新骨形成和骨整合最低。总之,与 PEEK 相比,将 Ta 和 SN 纳米粒子添加到 PEEK 中,制备了具有优化表面性能的 TPC 和 SPC 生物活性复合材料,这些复合材料在诱导细胞反应/骨再生方面发挥了关键作用。尽管 SPC 的成骨活性低于 TPC,但 SPC 具有成骨活性和良好的抗菌性能,可防止细菌感染。因此,SPC 在骨替代方面具有更好的潜力。
