Hierarchical materials with interconnected pores from capillary suspensions for bone tissue engineering

Souhaila Nider, Femke De Ceulaer, Berfu Göksel, Annabel Braem, Erin Koos
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Abstract

The increasing demand for bone grafts due to the aging population has opened new opportunities for the manufacture of porous ceramics to assist in bone reconstruction. In our study, we investigate a new, promising method to manufacture hierarchically porous structures in a straightforward, and tuneable way. It consists of combining the novel technology of capillary suspensions, formed by mixing solid particles and two immiscible liquids, one less than 5 vol%, with freeze casting. We have successfully achieved alumina and $\beta$-TCP materials with both <2 $\mu$m and 20-50 $\mu$m as the smallest and largest pore size, respectively. The microstructure exhibits fully open pores and high levels of porosity (> 60%). The capillary suspensions' rheological behaviour indicates that silica nano-suspensions as a secondary fluid creates a stronger internal particle network than sucrose for the alumina system. Conversely, the opposite was observed with the $\beta$-TCP system. These differences were attributed to the change in affinity between the secondary fluids and the solid loading. In our study, both systems have served to deepen the knowledge about the new area of capillary suspensions and prove their use in hierarchical porous scaffolds for bone tissue engineering.
用于骨组织工程的具有毛细悬浮液互联孔隙的分层材料
人口老龄化导致对骨移植的需求不断增加,这为制造多孔陶瓷以帮助骨重建提供了新的机遇。在我们的研究中,我们研究了一种新的、有前途的方法,它能以直接、可调整的方式制造分层多孔结构。它包括将毛细悬浮液的新技术与冷冻铸造技术相结合,毛细悬浮液是由固体颗粒与两种不相溶的液体(其中一种浓度小于 5%)混合形成的。我们已成功制备出氧化铝和β-三氯氧磷材料,两者的含量均为 60%。)毛细悬浮液的流变行为表明,在氧化铝体系中,作为辅助流体的二氧化硅纳米悬浮液比蔗糖能形成更强的内部颗粒网络。这些差异归因于二次流体与固体负载之间亲和力的变化。在我们的研究中,这两种体系都加深了人们对毛细悬浮液这一新领域的认识,并证明了它们在骨组织工程分层多孔支架中的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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