Overcoming the detrimental impact of volumetric muscle loss on segmental fracture healing via the induced membrane technique.

IF 5.1 2区医学 Q2 CELL & TISSUE ENGINEERING

Bone & Joint Research Pub Date : 2025-06-23 DOI:10.1302/2046-3758.146.BJR-2024-0334.R1

Andrew R Clark, Michael S Valerio, Jonathan Kulwatno, Sergey S Kanovka, Andrew L Ferrer, Christopher L Dearth, Stephen M Goldman

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Abstract

Aims: Open fractures pose a substantial treatment challenge, with adjacent muscle loss being a major complication. The induced membrane (IM) technique has shown promise in treating complicated fractures. The aim of this study is to investigate the impact of adjacent muscle trauma on segmental fracture healing using recombinant human bone morphogenetic protein-2 (rhBMP-2) via the IM technique.

Methods: Skeletally mature male rats (n = 10 to 11 per group) underwent unilateral 3 mm segmental bone defects (SBD) of the tibial diaphysis or a composite tissue injury (CTI), which included a SBD along with volumetric muscle loss (VML). A polymethyl methacrylate (PMMA) spacer was formed within the SBD of each rat. After a four-week period, the PMMA spacer was removed, and the defect was treated with a rhBMP2-impregnated collagen sponge. Longitudinal micro-CT (µCT) imaging was conducted at baseline (Day 0) and at weeks 2, 4, 8, and 12 post-spacer removal to monitor fracture healing progress. At the 12-week postoperative mark, a comprehensive analysis was conducted, including endpoint µCT analysis, evaluation of neuromuscular function, tibia torsional testing, and histological examination.

Results: Longitudinal µCT scans revealed no differences in bone formation or bone mineral density (BMD) at any timepoint between the SBD and CTI groups. High-resolution µCT analysis at the endpoint also showed no variations in bone quality. Torsion testing confirmed that VML did not affect bone strength. Notably, CTI animals exhibited an irreversible reduction in muscle mass and neuromuscular function, which was not observed in the SBD group.

Conclusion: Introducing the additional challenge of VML alongside SBD did not hinder the effectiveness of the induced membrane technique in healing a critical-sized defect.

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利用诱导膜技术克服体积性肌肉损失对节段性骨折愈合的不利影响。

目的：开放性骨折带来了巨大的治疗挑战，相邻肌肉损失是主要并发症。诱导膜（IM）技术在治疗复杂骨折方面显示出良好的前景。本研究的目的是利用重组人骨形态发生蛋白-2 （rhBMP-2）通过IM技术研究邻近肌肉损伤对节段性骨折愈合的影响。方法：骨骼成熟的雄性大鼠（每组10 ~ 11只）接受胫骨骨干单侧3mm节段性骨缺损（SBD）或复合组织损伤（CTI），其中包括SBD和体积性肌肉损失（VML）。在每只大鼠的SBD内形成聚甲基丙烯酸甲酯（PMMA）间隔物。四周后，取出PMMA垫片，用rhbmp2浸渍的胶原海绵处理缺损。在基线（第0天）和移除垫片后的第2、4、8和12周进行纵向微CT（µCT）成像，以监测骨折愈合进展。术后12周时进行综合分析，包括终点微CT分析、神经肌肉功能评估、胫骨扭转试验和组织学检查。结果：纵向微CT扫描显示，SBD组和CTI组在任何时间点的骨形成或骨密度（BMD）均无差异。终点的高分辨率微CT分析也显示骨质量没有变化。扭转试验证实VML不影响骨强度。值得注意的是，CTI动物表现出肌肉质量和神经肌肉功能的不可逆减少，这在SBD组中没有观察到。结论：在SBD的同时引入VML的额外挑战并不妨碍诱导膜技术修复临界尺寸缺陷的有效性。

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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