Engineered Niobium Carbide MXenzyme-Integrated Self-Adaptive Coatings Inhibiting Periprosthetic Osteolysis by Orchestrating Osteogenesis–Osteoclastogenesis Balance

材料科学 碳化铌 假体周围 氧化铌 平衡(能力) 骨溶解 生物医学工程 纳米技术 冶金 牙科 医学 神经科学 关节置换术 生物 外科
作者
Shishuo Li,Xiaoqing Lü,Qihao Chai,Benzhao Huang,Shimin Dai,Peng Wang,Jianing Liu,Zhibo Zhao,Xiao Li,Bin Liu,Kangqing Zuo,Zhentao Man,Ningbo Li,Wei Li
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:16 (23): 29805-29822 被引量:12
标识
DOI:10.1021/acsami.4c04122
摘要

Periprosthetic osteolysis induced by the ultrahigh-molecular-weight polyethylene (UHMWPE) wear particles is a major complication associated with the sustained service of artificial joint prostheses and often necessitates revision surgery. Therefore, a smart implant with direct prevention and repair abilities is urgently developed to avoid painful revision surgery. Herein, we fabricate a phosphatidylserine- and polyethylenimine-engineered niobium carbide (Nb2C) MXenzyme-coated micro/nanostructured titanium implant (PPN@MNTi) that inhibits UHMWPE particle-induced periprosthetic osteolysis. The specific mechanism by which PPN@MNTi operates involves the bioresponsive release of nanosheets from the MNTi substrate within an osteolysis microenvironment, initiated by the cleavage of a thioketal-dopamine molecule sensitive to reactive oxygen species (ROS). Subsequently, functionalized Nb2C MXenzyme could target macrophages and escape from lysosomes, effectively scavenging intracellular ROS through its antioxidant nanozyme-mimicking activities. This further achieves the suppression of osteoclastogenesis by inhibiting NF-κB/MAPK and autophagy signaling pathways. Simultaneously, based on the synergistic effect of MXenzyme-integrated coatings and micro/nanostructured topography, the designed implant promotes the osteogenic differentiation of bone mesenchymal stem cells to regulate bone homeostasis, further achieving advanced osseointegration and alleviable periprosthetic osteolysis in vivo. This study provides a precise prevention and repair strategy of periprosthetic osteolysis, offering a paradigm for the development of smart orthopedic implants.
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