A comparative in vitro and in vivo analysis of the impact of copper substitution on the cytocompatibility, osteogenic, and angiogenic properties of a borosilicate bioactive glass

IF 3.9 3区医学 Q2 ENGINEERING, BIOMEDICAL

Journal of biomedical materials research. Part A Pub Date : 2024-04-15 DOI:10.1002/jbm.a.37721

Linn Anna Fiehn, Elke Kunisch, Merve Saur, Marcela Arango-Ospina, Christian Merle, Sébastien Hagmann, Adrian Stiller, Leena Hupa, Hana Kaňková, Dagmar Galusková, Tobias Renkawitz, Aldo. R. Boccaccini, Fabian Westhauser

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引用次数: 0

Abstract

The 0106-B1-bioactive glass (BG) composition (in wt %: 37.5 SiO₂, 22.6 CaO, 5.9 Na₂O, 4.0 P₂O₅, 12.0 K₂O, 5.5 MgO, and 12.5 B₂O₃) has demonstrated favorable processing properties and promising bone regeneration potential. The present study aimed to evaluate the biological effects of the incorporation of highly pro-angiogenic copper (Cu) in 0106-B1-BG in vitro using human bone marrow-derived mesenchymal stromal cells (BMSCs) as well as its in vivo potential for bone regeneration. CuO was added to 0106-B1-BG in exchange for CaO, resulting in Cu-doped BG compositions containing 1.0, 2.5 and 5.0 wt % CuO (composition in wt %: 37.5 SiO₂, 21.6/ 20.1/17.6 CaO, 5.9 Na₂O, 4.0 P₂O₅, 12.0 K₂O, 5.5 MgO, 12.5 B₂O₃, and 1.0/ 2.5/ 5.0 CuO). In vitro, the BGs' impact on the viability, proliferation, and growth patterns of BMSCs was evaluated. Analyses of protein secretion, matrix formation, and gene expression were used for the assessment of the BGs' influence on BMSCs regarding osteogenic differentiation and angiogenic stimulation. The presence of Cu improved cytocompatibility, osteogenic differentiation, and angiogenic response when compared with unmodified 0106-B1-BG in vitro. In vivo, a critical-size femoral defect in rats was filled with scaffolds made from BGs. Bone regeneration was evaluated by micro-computed tomography. Histological analysis was performed to assess bone maturation and angiogenesis. In vivo effects regarding defect closure, presence of osteoclastic cells or vascular structures in the defect were not significantly changed by the addition of Cu compared with undoped 0106-B1-BG scaffolds. Hence, while the in vitro properties of the 0106-B1-BG were significantly improved by the incorporation of Cu, further evaluation of the BG composition is necessary to transfer these effects to an in vivo setting.

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铜替代物对硼硅酸盐生物活性玻璃的细胞相容性、成骨和血管生成特性影响的体内外对比分析

0106-B1 生物活性玻璃 (BG) 的成分（重量百分比：SiO2 37.5、CaO 22.6、Na2O 5.9、P2O5 4.0、K2O 12.0、MgO 5.5 和 B2O3 12.5）具有良好的加工性能和骨再生潜力。本研究旨在利用人体骨髓间充质基质细胞（BMSCs）在体外评估在 0106-B1-BG 中掺入高促血管生成铜（Cu）的生物效应及其在体内用于骨再生的潜力。在 0106-B1-BG 中添加氧化铜以替代 CaO，从而得到含 1.0、2.5 和 5.0 重量百分比氧化铜的掺铜 BG 成分（成分重量百分比：37.5 SiO2、21.6/ 20.1/17.6 CaO、5.9 Na2O、4.0 P2O5、12.0 K2O、5.5 MgO、12.5 B2O3 和 1.0/ 2.5/ 5.0 CuO）。在体外，评估了 BG 对 BMSCs 的活力、增殖和生长模式的影响。蛋白质分泌、基质形成和基因表达分析用于评估 BGs 在成骨分化和血管生成刺激方面对 BMSCs 的影响。在体外，与未改性的 0106-B1-BG 相比，Cu 的存在改善了细胞相容性、成骨分化和血管生成反应。在体内，用 BG 制作的支架填充大鼠临界大小的股骨缺损。通过微型计算机断层扫描评估了骨再生情况。组织学分析用于评估骨成熟和血管生成。与未掺杂的 0106-B1-BG 支架相比，添加铜对缺损闭合、破骨细胞或血管结构的体内影响没有明显变化。因此，虽然加入铜后 0106-B1-BG 的体外特性得到了明显改善，但仍有必要对 BG 成分进行进一步评估，以便将这些效果应用到体内环境中。

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来源期刊

Journal of biomedical materials research. Part A 工程技术-材料科学：生物材料

CiteScore

10.40

自引率

2.00%

发文量

135

审稿时长

3.6 months

期刊介绍： The Journal of Biomedical Materials Research Part A is an international, interdisciplinary, English-language publication of original contributions concerning studies of the preparation, performance, and evaluation of biomaterials; the chemical, physical, toxicological, and mechanical behavior of materials in physiological environments; and the response of blood and tissues to biomaterials. The Journal publishes peer-reviewed articles on all relevant biomaterial topics including the science and technology of alloys,polymers, ceramics, and reprocessed animal and human tissues in surgery,dentistry, artificial organs, and other medical devices. The Journal also publishes articles in interdisciplinary areas such as tissue engineering and controlled release technology where biomaterials play a significant role in the performance of the medical device. The Journal of Biomedical Materials Research is the official journal of the Society for Biomaterials (USA), the Japanese Society for Biomaterials, the Australasian Society for Biomaterials, and the Korean Society for Biomaterials. Articles are welcomed from all scientists. Membership in the Society for Biomaterials is not a prerequisite for submission.