Optimization of a concentrated growth factor/mesoporous bioactive glass composite scaffold and its application in rabbit mandible defect regeneration†

IF 5.8 3区 医学 Q1 MATERIALS SCIENCE, BIOMATERIALS Biomaterials Science Pub Date : 2023-08-08 DOI:10.1039/D3BM00805C
Mengran Ma, Wenjing Shen, Beibei Li, Mengwen Sun, Dan Lin and Lingqiang Meng
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Abstract

Maxillofacial bone defect repair and regeneration remains a tremendous challenge in the field of stomatology. However, the limited osteoinductivity of artificial materials and the high cost of bioactive agents restrain their clinical translation. This study aimed to construct an economical and efficient concentrated growth factor/mesoporous bioactive glass (CGF/MBG) composite scaffold for bone regeneration. The biochemical composition and biological effects of different forms of CGFs were systematically compared, and the results showed that CGF-conditioned medium effectively promoted proliferation, migration and osteogenesis of allogenic BMSCs. Gel phase CGF (gpCGF) exhibited superior bioactivity and osteoinductivity to liquid phase CGF (lpCGF) and liquid/gel mixed phase CGF (lgpCGF), and was further applied to construct CGF/MBG scaffolds. In vitro studies demonstrated that co-culture with gpCGF-conditioned medium further enhanced the biocompatibility of MBG, increasing cell adhesion and proliferation on the scaffold. On this basis, two compositing approaches to construct the scaffold by fibrin gel formation (CGF/FG/MBG) and freeze-drying (fdCGF/MBG) were applied, and the biological efficacy of CGFs was compared in vivo. In a rabbit mandibular defect model, higher osteogenic efficiency in in situ bone regeneration of CGF/FG/MBG composite scaffolds was proved, compared with fdCGF/MBG. Taken together, the CGF/FG/MBG composite scaffold is expected to be an efficient bone repairing therapy for clinical translation, and the CGF-composited scaffold using gpCGF and the fibrin gel formation method is a promising way to enhance the bioactivity and osteoinductivity of current clinical bone repairing materials, providing new thoughts on the development of future orthopedic biomaterials.

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浓缩生长因子/介孔生物活性玻璃复合支架的优化及其在兔下颌骨缺损修复中的应用
颌面部骨缺损的修复与再生一直是口腔医学领域的一个巨大挑战。然而,人工材料有限的骨诱导能力和生物活性药物的高成本限制了它们的临床应用。本研究旨在构建经济高效的浓缩生长因子/介孔生物活性玻璃(CGF/MBG)骨再生复合支架。系统比较了不同形态的cgf的生化组成和生物学效应,结果表明cgf条件培养基能有效促进同种异体骨髓间充质干细胞的增殖、迁移和成骨。凝胶相CGF (gpCGF)表现出比液相CGF (lpCGF)和液凝胶混合相CGF (lgpCGF)更好的生物活性和骨诱导能力,可进一步用于构建CGF/MBG支架。体外研究表明,与gpcgf条件培养基共培养进一步增强了MBG的生物相容性,增加了细胞在支架上的粘附和增殖。在此基础上,采用纤维蛋白凝胶形成(CGF/FG/MBG)和冷冻干燥(fdCGF/MBG)两种复合方法构建支架,并比较CGF/MBG在体内的生物学功效。在兔下颌骨缺损模型中,与fdCGF/MBG相比,CGF/FG/MBG复合支架在原位骨再生中的成骨效率更高。综上所述,CGF/FG/MBG复合支架有望成为一种用于临床翻译的高效骨修复疗法,而采用gpCGF和纤维蛋白凝胶形成方法制备的CGF复合支架有望增强现有临床骨修复材料的生物活性和骨诱导能力,为未来骨科生物材料的发展提供新的思路。
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来源期刊
Biomaterials Science
Biomaterials Science MATERIALS SCIENCE, BIOMATERIALS-
CiteScore
11.50
自引率
4.50%
发文量
556
期刊介绍: Biomaterials Science is an international high impact journal exploring the science of biomaterials and their translation towards clinical use. Its scope encompasses new concepts in biomaterials design, studies into the interaction of biomaterials with the body, and the use of materials to answer fundamental biological questions.
期刊最新文献
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