期刊
BIOACTIVE MATERIALS
卷 28, 期 -, 页码 348-357出版社
KEAI PUBLISHING LTD
DOI: 10.1016/j.bioactmat.2023.05.019
关键词
Bone cement; Trimagnesium phosphate; High compressive strength; Injectable; Bioactive materials
This study proposes a strategy to develop high-performance bone cement and establishes a trimagnesium phosphate cement (TMPC) system. The TMPC exhibits high early strength, low curing temperature, neutral pH, and excellent injectability, overcoming the critical limitations of recently studied magnesium phosphate cement. By adjusting the pH of the system, the magnesium-to-phosphate ratio can manipulate the components of hydration products and their transformation, as well as influence the hydration speed and regulate the properties of TMPC. Moreover, TMPC shows outstanding biocompatibility and bone-filling capacity, making it a potential alternative to current bone cements.
Magnesium phosphate bone cement has become a widely used orthopedic implant due to the advantages of fast-setting and high early strength. However, developing magnesium phosphate cement possessing applicable injectability, high strength, and biocompatibility simultaneously remains a significant challenge. Herein, we propose a strategy to develop high-performance bone cement and establish a trimagnesium phosphate cement (TMPC) system. The TMPC exhibits high early strength, low curing temperature, neutral pH, and excellent injectability, overcoming the critical limitations of recently studied magnesium phosphate cement. By moni-toring the hydration pH value and electroconductivity, we demonstrate that the magnesium-to-phosphate ratio could manipulate the components of hydration products and their transformation by adjusting the pH of the system, which will influence the hydration speed. Further, the ratio could regulate the hydration network and the properties of TMPC. Moreover, in vitro studies show that TMPC has outstanding biocompatibility and bone-filling capacity. The facile preparation properties and these advantages of TMPC render it a potential clinical alternative to polymethylmethacrylate and calcium phosphate bone cement. This study will contribute to the rational design of high-performance bone cement.
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