波洛沙姆外加剂对球磨改性磷酸三钙水泥强度、注射性和形状稳定性的影响。

Y. Kim, E. Uyama, K. Sekine, F. Kawano, K. Hamada
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引用次数: 2

摘要

本研究使用球磨机械化学改性的β-TCP粉末开发了一种新的CPC。CPC原型表现出优异的流动性,易于注射到骨缺损中;然而,由于其高流动性,在植入后立即存在缺陷泄漏的风险。在CPC中加入泊洛沙姆,一种反热响应胶凝剂,可以优化流动性。在较低的温度下,它会形成溶胶并保持良好的可注射性,而在人体温度下,会转化为凝胶,降低流动性和泄漏风险。在本研究中,评估了添加3、5和10质量%的泊洛沙姆对原型CPC的可注射性、形状稳定性和强度的影响。含有三种不同泊洛沙姆含量的原型CPC糊剂在37°C下注射15分钟的计算可注射性高于不含泊洛沙姆的CPC糊剂。此外,三种含有泊洛沙姆的CPC糊剂在注射后立即的形状稳定性高于不含有泊洛沙的CPC糊料。在37°C下储存1周后,含有10质量%泊洛沙姆的CPC压块的抗压强度和径向拉伸强度与不含泊洛沙姆。此外,含有10质量%泊洛沙姆的CPC压块在断裂后表现出明显的塑性变形。这些结果表明,在原型CPC中添加泊洛沙姆可以降低骨缺损渗漏的风险,并在保持可注射性和强度的同时提高骨折韧性。
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Effects of poloxamer additives on strength, injectability, and shape stability of beta-tricalcium phosphate cement modified using ball-milling.
A new CPC was developed in this study using a β-TCP powder mechano-chemically modified by ball-milling. The prototype CPC exhibits excellent fluidity for easy injection into bone defects; however, there is a risk of leakage from the defects immediately after implantation due to its high fluidity. The addition of poloxamer, an inverse thermoresponsive gelling agent, into CPC optimizes the fluidity. At lower temperatures, it forms a sol and maintains good injectability, whereas at the human body temperature, it transforms to a gel, reducing the fluidity and risk of leakage. In this study, the effects of poloxamer addition of 3, 5, and 10 mass% on the injectability, shape stability, and strength of the prototype CPC were evaluated. The calculated injectability of the prototype CPC pastes containing three different poloxamer contents was higher than that of the CPC paste without poloxamer for 15 min at 37 °C. Furthermore, the shape stability immediately after injection of the three CPC pastes with poloxamer was higher than that of the CPC paste without poloxamer. After 1 week of storage at 37 °C, the compressive strength and diametral tensile strength of the CPC compacts containing 10 mass% poloxamer were similar to those of the CPC compact without poloxamer. Additionally, the CPC compacts containing 10 mass% poloxamer exhibited clear plastic deformation after fracture. These results indicate that the addition of poloxamer to the prototype CPC could reduce the risk of leakage from bone defects and improve the fracture toughness with maintaining the injectability and strength.
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