AI Article Synopsis
- Artificial bone made from calcium carbonate resorbs faster than calcium phosphate-based materials, showing potential for early bone replacement.
- Animal studies indicate that calcium carbonate ceramics can lead to better bone formation than existing artificial options in the short term, but long-term results are inadequate due to resorption issues.
- Adding silica to calcium carbonate ceramics regulates the resorption rate, resulting in better bone formation after 12 weeks and aligning resorption rates with bone growth more effectively.
Article 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-CaCO) to regulate the resorption rate. After 12 weeks of implantation, Si-CaCO 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-CaCO ceramics exhibited an intermediate dissolution rate between high-purity calcium carbonate and β-TCP ceramics. Silica doping in CaCO ceramics presents an effective approach for aligning material resorption with bone formation and growth.
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| http://dx.doi.org/10.4012/dmj.2024-120 | DOI Listing |
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View Article and Find Full Text PDFArticle Synopsis
- Artificial bone made from calcium carbonate resorbs faster than calcium phosphate-based materials, showing potential for early bone replacement.
- Animal studies indicate that calcium carbonate ceramics can lead to better bone formation than existing artificial options in the short term, but long-term results are inadequate due to resorption issues.
- Adding silica to calcium carbonate ceramics regulates the resorption rate, resulting in better bone formation after 12 weeks and aligning resorption rates with bone growth more effectively.
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