Evaluation of resorption rate-controlled calcium carbonate ceramics as a substitute bone material.

IF 1.9 4区医学 Q2 DENTISTRY, ORAL SURGERY & MEDICINE Dental materials journal Pub Date : 2025-01-31 Epub Date: 2024-12-28 DOI:10.4012/dmj.2024-120

Shota Umemoto, Toshitake Furusawa, Hidero Unuma, Tomoyo Goto, Tohru Sekino

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Abstract

Artificial bone, primarily composed of calcium carbonate, demonstrates a higher resorption rate than calcium phosphate-based counterparts, suggesting potential for early bone replacement. Animal experiments using porous calcium carbonate ceramics have demonstrated bone formation superior to commercially available artificial bone after short-term implantation. Long-term implantation has yielded suboptimal results owing to resorption of both newly formed bone and implantation material. We prepared calcium carbonate ceramics added with silica (Si-CaCO₃) to regulate the resorption rate. After 12 weeks of implantation, Si-CaCO₃ ceramics exhibited bone formation comparable to that of β-tricalcium phosphate (β-TCP) but less variability in the distribution of bone formation within the tissue. An in vitro dissolution test, serving as an indicator of in vivo resorption rate, revealed that Si-CaCO₃ ceramics exhibited an intermediate dissolution rate between high-purity calcium carbonate and β-TCP ceramics. Silica doping in CaCO₃ ceramics presents an effective approach for aligning material resorption with bone formation and growth.

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可控制吸收速率的碳酸钙陶瓷替代骨材料的评价。

人工骨主要由碳酸钙组成，其吸收率高于以磷酸钙为基础的人工骨，这表明早期骨置换的潜力。使用多孔碳酸钙陶瓷的动物实验表明，短期植入后骨形成优于市售人工骨。由于新形成的骨和植入材料的重新吸收，长期植入产生了不理想的结果。我们制备了添加二氧化硅（Si-CaCO3）的碳酸钙陶瓷，以调节吸收率。植入12周后，Si-CaCO3陶瓷的骨形成与β-磷酸三钙（β-TCP）相当，但骨形成在组织内分布的可变性较小。体外溶出试验表明，Si-CaCO3陶瓷的溶出速率介于高纯碳酸钙和β-TCP陶瓷之间。二氧化硅掺杂CaCO3陶瓷是一种将材料吸收与骨形成和生长结合起来的有效方法。

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来源期刊

Dental materials journal 医学-材料科学：生物材料

CiteScore

4.60

自引率

4.00%

发文量

102

审稿时长

3 months

期刊介绍： Dental Materials Journal is a peer review journal published by the Japanese Society for Dental Materials and Devises aiming to introduce the progress of the basic and applied sciences in dental materials and biomaterials. The dental materials-related clinical science and instrumental technologies are also within the scope of this journal. The materials dealt include synthetic polymers, ceramics, metals and tissue-derived biomaterials. Forefront dental materials and biomaterials used in developing filed, such as tissue engineering, bioengineering and artificial intelligence, are positively considered for the review as well. Recent acceptance rate of the submitted manuscript in the journal is around 30%.