Evaluation of Integrity of Allogeneic Bone Processed with High Hydrostatic Pressure: A Pilot Animal Study.

IF 8.1 Q1 ENGINEERING, BIOMEDICAL
Biomaterials research Pub Date : 2024-08-15 eCollection Date: 2024-01-01 DOI:10.34133/bmr.0067
Janine Waletzko-Hellwig, Jan-Oliver Sass, Rainer Bader, Bernhard Frerich, Michael Dau
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Abstract

Processing of bone allografts with strong acids and γ-sterilization results in decreased biomechanical properties and reduction in osteogenecity and osteoconductivity. High hydrostatic pressure (HHP) treatment could be a gentle alternative to processing techniques usually applied. HHP is known to induce devitalization of cancellous bone while preserving biomechanical stability and molecules that induce cell differentiation. Here, a specific HHP protocol for devitalization of cancellous bone was applied to rabbit femoral bone. Allogeneic bone cylinders were subsequently implanted into a defect in the lateral condyles of rabbit femora and were compared to autologous bone grafts. Analysis of bone integration 4 and 12 weeks postoperatively revealed no differences between autografts and HHP-treated allografts regarding the expression of genes characteristic for bone remodeling, showing expression niveous comparable to original bone cylinder. Furthermore, biomechanical properties were evaluated 12 weeks postoperatively. Autografts and HHP-treated allografts both showed a yield strength ranging between 2 and 2.5 MPa and an average bone mass density of 250 mg/cm2. Furthermore, histological analysis of the region of interest revealed a rate of 5 to 10% BPM-2 and approximately 40% osteocalcin-positive staining, with no marked differences between allografts and autografts demonstrating comparable matrix deposition in the graft region. A suitable graft integrity was pointed out by μCT imaging in both groups, supporting the biomechanical data. In summary, the integrity of HHP-treated cancellous bone allografts showed similar results to untreated autografts. Hence, HHP treatment may represent a gentle and effective alternative to existing processing techniques for bone allografts.

评估高静水压处理异体骨的完整性:试验性动物研究
用强酸和γ-灭菌处理同种异体骨会导致生物力学特性下降,骨生成能力和骨传导性降低。高静水压(HHP)处理可以温和地替代通常使用的处理技术。众所周知,高静水压可诱导松质骨脱落,同时保留生物力学稳定性和诱导细胞分化的分子。在此,我们对兔股骨采用了一种特定的 HHP 方案来去除松质骨。随后将异体骨柱植入兔股骨外侧髁的缺损处,并与自体骨移植物进行比较。术后 4 周和 12 周的骨整合分析表明,自体移植物和经 HHP 处理的异体移植物在骨重塑特征基因的表达方面没有差异,其表达水平与原始骨柱相当。此外,还对术后 12 周的生物力学特性进行了评估。自体移植物和经 HHP 处理的同种异体移植物的屈服强度都在 2 至 2.5 兆帕之间,平均骨密度为 250 毫克/平方厘米。此外,相关区域的组织学分析显示,BPM-2阳性率为5%至10%,骨钙素染色阳性率约为40%,异体移植物和自体移植物之间没有明显差异,移植物区域的基质沉积情况相当。两组的μCT成像均显示移植物具有适当的完整性,为生物力学数据提供了支持。总之,经 HHP 处理的松质骨异体移植物的完整性与未经处理的自体移植物结果相似。因此,HHP 处理可能是替代现有骨异体移植物处理技术的一种温和而有效的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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