Osteointegration and remodeling of a novel mineral magnesium phosphate-based bone glue in-vivo.

IF 2.3 4区医学 Q3 ENGINEERING, BIOMEDICAL

Journal of Biomaterials Applications Pub Date : 2025-07-01 Epub Date: 2025-03-14 DOI:10.1177/08853282251326033

Stefanie Hoelscher-Doht, Andrea Ewald, Andreas Fuchs, Paul Otto, Julia Bator, Jan-Peter Grunz, Karl Kneist, Lasse Bögelein, Uwe Gbureck

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引用次数: 0

Abstract

BackgroundBone adhesives represent a major challenge in the field of materials science. Magnesium phosphate-based mineral bone cements exhibit high biocompatibility, particularly for the use as bone substitutes. In combination with calcium ions and phytic acid as liquid components, these cements demonstrate adhesive properties and potentially represent a promising new type of bone glue. Two of these first cement-adhesives were further investigated for their in vivo properties on distal femoral defects in rabbits in this study.Materials and methodsIn 4.5-month-old New Zealand White rabbits, distal lateral femoral defects in the metaphyseal region were grafted with two different magnesium phosphate-based bone adhesives (MgO, Mg2_,75Ca_0,25(PO₄)₂, phytic acid 22,5/25%wt). After 6 weeks in vivo, the adhesives were evaluated by histologic examination, biomechanical testing, imaging, XRD, and porosimetry measurements for biocompatibility and remodeling to bone.ResultsWhile the bone adhesives showed a higher density on pQCT than the surrounding cancellous bone the biomechanical testing revealed a significantly lower initial stiffness of the adhesives 6 weeks after implantation compared to both the cancellous bone and the cuboid testing before implantation. The decrease in stability was confirmed by the degradation demonstrated histologically as well as by imaging morphology. Remodeling to bone was not yet complete.ConclusionBoth bone adhesives exhibited high biocompatibility without foreign body reactions. Imaging and histology presented a homogeneous picture of degradation of both adhesives and remodeling to bone, which was not yet complete 6 weeks after the implantation.

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一种新型矿物磷酸镁骨胶的体内骨整合和重塑。

背景骨粘合剂是材料科学领域的一大挑战。磷酸镁基矿物骨水泥具有很高的生物相容性，尤其适合用作骨替代物。与钙离子和植酸作为液体成分结合使用时，这些水门汀具有粘合特性，有可能成为一种前景广阔的新型骨胶。材料和方法在 4.5 个月大的新西兰白兔的股骨远端外侧骨骺区，用两种不同的磷酸镁基骨粘合剂（MgO、Mg2,75Ca0,25(PO4)2、植酸 22,5/25%wt）移植股骨远端外侧缺损。结果虽然骨粘合剂在 pQCT 上显示的密度高于周围的松质骨，但生物力学测试显示，与植入前的松质骨和立方体测试相比，植入 6 周后粘合剂的初始刚度明显降低。组织学和成像形态学显示的退化证实了稳定性的降低。结论两种骨粘合剂都表现出很高的生物相容性，没有异物反应。影像学和组织学显示两种粘合剂都出现了降解和骨重塑，但在植入 6 周后仍未完成。

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来源期刊

Journal of Biomaterials Applications 工程技术-材料科学：生物材料

CiteScore

5.10

自引率

3.40%

发文量

144

审稿时长

1.5 months

期刊介绍： The Journal of Biomaterials Applications is a fully peer reviewed international journal that publishes original research and review articles that emphasize the development, manufacture and clinical applications of biomaterials. Peer-reviewed articles by biomedical specialists from around the world cover: New developments in biomaterials, R&D, properties and performance, evaluation and applications Applications in biomedical materials and devices - from sutures and wound dressings to biosensors and cardiovascular devices Current findings in biological compatibility/incompatibility of biomaterials The Journal of Biomaterials Applications publishes original articles that emphasize the development, manufacture and clinical applications of biomaterials. Biomaterials continue to be one of the most rapidly growing areas of research in plastics today and certainly one of the biggest technical challenges, since biomaterial performance is dependent on polymer compatibility with the aggressive biological environment. The Journal cuts across disciplines and focuses on medical research and topics that present the broadest view of practical applications of biomaterials in actual clinical use. The Journal of Biomaterial Applications is devoted to new and emerging biomaterials technologies, particularly focusing on the many applications which are under development at industrial biomedical and polymer research facilities, as well as the ongoing activities in academic, medical and applied clinical uses of devices.