Enhancing the biological integration of massive bone allografts: A porcine preclinical in vivo pilot-study

IF 3.5 2区 医学 Q2 ENDOCRINOLOGY & METABOLISM Bone Pub Date : 2024-07-29 DOI:10.1016/j.bone.2024.117213
Robin Evrard , Julie Manon , Louis Maistriaux , Lies Fievé , Tom Darius , Olivier Cornu , Benoit Lengelé , Thomas Schubert
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Abstract

Critical bone loss can have several origins: infections, tumors or trauma. Therefore, massive bone allograft can be a solution for limb salvage. Such a biological reconstruction should have the ideal biomechanical qualities. However, their complication rate remains too high. Perfusion-decellularization of massive allografts could promote the vitality of these grafts, thereby improving their integration and bone remodeling.

Three perfusion-decellularized massive bone allografts were compared to 3 fresh frozen massive bone allografts in a preclinical in vivo porcine study using an orthopedic surgery model. Three pigs each underwent a critical diaphyseal femoral defects followed by an allogeneic intercalary femoral graft on their both femurs (one decellularized and one conventional fresh frozen as “native”) to reconstruct the defect. Clinical imaging was performed over 3 months of follow-up. The grafts were then explanted and examined by non-decalcified histology, fluoroscopic microscopy and immunohistochemistry.

Bone consolidation was achieved in both groups at the same time. However, the volume of bone callus appeared to be greater in the decellularized group. Histology demonstrated a superior bone remodeling in the decellularized group, with a higher number of osteoclasts (p < 0.001) and larger areas of osteoid matrix and newly formed bone as compared to the “native” group. Immunohistochemistry showed a superior vitality and remodeling in both the cortical and medullary cavities for osteocalcin (p < 0.001), Ki67 (p < 0.001), CD3 (p < 0.001) and α-SMA (p < 0.001) as compared the “native” group. Three months after implantation, the decellularized grafts were proven to be biologically more active compared to native grafts. Fluoroscopic microscopy revealed more ossification fronts in the depth of the decellularized grafts (p = 0.021).

This pilot study provides the first in vivo demonstration on the enhanced biological capacities of massive bone allograft decellularized by perfusion as compared to conventional massive bone allografts.

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增强大块骨异体移植的生物整合:猪临床前体内试验研究。
严重的骨缺失可能有多种原因:感染、肿瘤或外伤。因此,大块骨异体移植是肢体挽救的一种解决方案。这种生物重建应具有理想的生物力学质量。然而,它们的并发症发生率仍然过高。对大块同种异体骨进行灌注脱细胞处理可以提高这些移植物的活力,从而改善它们的整合和骨重塑。在一项使用骨科手术模型进行的猪体内临床前研究中,对三种灌注脱细胞大块骨异体移植物和三种新鲜冷冻大块骨异体移植物进行了比较。三头猪分别接受了严重的股骨骺端缺损手术,随后在其双侧股骨上进行了异体股骨髓间移植(一种为脱细胞移植,一种为传统的新鲜冷冻 "原生 "移植),以重建缺损。在 3 个月的随访中进行了临床成像。然后取出移植物,并通过非脱钙组织学、透视显微镜和免疫组化进行检查。两组患者都在同一时间实现了骨巩固。不过,脱细胞组的骨茧体积似乎更大。组织学显示脱细胞组的骨重塑效果更好,破骨细胞的数量更高(p
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来源期刊
Bone
Bone 医学-内分泌学与代谢
CiteScore
8.90
自引率
4.90%
发文量
264
审稿时长
30 days
期刊介绍: BONE is an interdisciplinary forum for the rapid publication of original articles and reviews on basic, translational, and clinical aspects of bone and mineral metabolism. The Journal also encourages submissions related to interactions of bone with other organ systems, including cartilage, endocrine, muscle, fat, neural, vascular, gastrointestinal, hematopoietic, and immune systems. Particular attention is placed on the application of experimental studies to clinical practice.
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