Highly plastic Zn-0.3Ca alloy for guided bone regeneration membrane: Breaking the trade-off between antibacterial ability and biocompatibility

IF 18 1区医学 Q1 ENGINEERING, BIOMEDICAL Bioactive Materials Pub Date : 2024-09-12 DOI:10.1016/j.bioactmat.2024.08.049

Xiang-Min Li , Zhang-Zhi Shi , Ayisulu Tuoliken , Wei Gou , Chang-Heng Li , Lu-Ning Wang

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Abstract

A common problem for Zn alloys is the trade-off between antibacterial ability and biocompatibility. This paper proposes a strategy to solve this problem by increasing release ratio of Ca²⁺ ions, which is realized by significant refinement of CaZn₁₃ particles through bottom circulating water-cooled casting (BCWC) and rolling. Compared with conventionally fabricated Zn-0.3Ca alloy, the BCWC-rolled alloy shows higher antibacterial abilities against E. coli and S. aureus, meanwhile much less toxicity to MC3T3-E1 cells. Additionally, plasticity, degradation uniformity, and ability to induce osteogenic differentiation in vitro of the alloy are improved. The elongation up to 49 %, which is the highest among Zn alloys with Ca, and is achieved since the sizes of CaZn₁₃ particles and Zn grains are small and close. As a result, the long-standing problem of low formability of Zn alloys containing Ca has also been solved due to the elimination of large CaZn₁₃ particles. The BCWC-rolled alloy is a promising candidate of making GBR membrane.

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用于引导骨再生膜的高塑性 Zn-0.3Ca 合金：打破抗菌能力与生物相容性之间的平衡

Zn 合金的一个常见问题是抗菌能力与生物相容性之间的权衡。本文提出了一种通过提高 Ca2+ 离子释放率来解决这一问题的策略，即通过底部循环水冷铸造（BCWC）和轧制对 CaZn13 颗粒进行显著细化来实现。与传统制造的 Zn-0.3Ca 合金相比，BCWC 轧制合金对大肠杆菌和金黄色葡萄球菌具有更强的抗菌能力，同时对 MC3T3-E1 细胞的毒性更低。此外，合金的可塑性、降解均匀性和体外诱导成骨分化的能力也得到了改善。由于 CaZn13 颗粒和 Zn 晶粒的尺寸较小且接近，因此其伸长率高达 49%，是含 Ca Zn 合金中最高的。因此，由于消除了大的 CaZn13 颗粒，长期以来含 Ca Zn 合金成型性低的问题也得到了解决。BCWC 轧制合金有望成为制造 GBR 膜的候选材料。

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来源期刊

Bioactive Materials Biochemistry, Genetics and Molecular Biology-Biotechnology

CiteScore

28.00

自引率

6.30%

发文量

436

审稿时长

20 days

期刊介绍： Bioactive Materials is a peer-reviewed research publication that focuses on advancements in bioactive materials. The journal accepts research papers, reviews, and rapid communications in the field of next-generation biomaterials that interact with cells, tissues, and organs in various living organisms. The primary goal of Bioactive Materials is to promote the science and engineering of biomaterials that exhibit adaptiveness to the biological environment. These materials are specifically designed to stimulate or direct appropriate cell and tissue responses or regulate interactions with microorganisms. The journal covers a wide range of bioactive materials, including those that are engineered or designed in terms of their physical form (e.g. particulate, fiber), topology (e.g. porosity, surface roughness), or dimensions (ranging from macro to nano-scales). Contributions are sought from the following categories of bioactive materials: Bioactive metals and alloys Bioactive inorganics: ceramics, glasses, and carbon-based materials Bioactive polymers and gels Bioactive materials derived from natural sources Bioactive composites These materials find applications in human and veterinary medicine, such as implants, tissue engineering scaffolds, cell/drug/gene carriers, as well as imaging and sensing devices.