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纯化骨异种移植物:一种源自优化超临界CO₂处理的新型高效动物骨替代物。

Purified bone xenografts: A novel and efficient animal bone substitute derived from an optimized supercritical CO treatment.

作者信息

Rota Solène, Sicard Ludovic, Perarnaud Justine, Agniel Rémy, Bardonnet Raphaël, Chaussain Catherine, Boissière Michel, Pauthe Emmanuel, Gorin Caroline

机构信息

ERRMECe, Equipe de Recherche sur Les Relations Matrice Extracellulaire-Cellules (EA1391), Biomaterials for Health Research Group, Institut des Matériaux I-MAT (FD4122), CY Tech, CY Cergy Paris Université, Maison Internationale de la Recherche (MIR), rue Descartes, Neuville sur Oise cedex, France.

BIOBank, Bone Tissue Bank, Lieusaint, France.

出版信息

Mater Today Bio. 2025 Mar 3;31:101619. doi: 10.1016/j.mtbio.2025.101619. eCollection 2025 Apr.

DOI:10.1016/j.mtbio.2025.101619
PMID:40124337
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11930176/
Abstract

Bone xenografts represent a promising alternative to autologous or allograft transplants, yet antigenicity in animal-derived tissues remains a major limitation to their clinical use. To provide any risk of contamination or allogenic rejection, the Supercrit® process was developed to treat allogeneic human bone combining a supercritical CO treatment followed by a chemical treatment using high quantities of different solvents. The aim of this study was to produce a xenogeneic bone substitute thanks to the development of a new one-step supercritical process, 'Goxcrit', and to test it . This new process reduces the use of solvents by injecting them under pressure into the supercritical CO flow, while maintaining the cleaning quality of the bone matrix and better preserving its inner structure, essential for its future bone integration. Porcine derived bone samples were treated using Goxcrit or Supercrit®, and compared with human bone treated with Supercrit®, the commercialized bone allograft. analyses demonstrated the absence of cytotoxicity and of the alpha-gal epitope mainly responsible for cross-species immunogenicity. Additionally, experiments revealed improved bone formation in rats critical calvarial defects (BV/TV and von Kossa analyses) implanted with Goxcrit samples, with bone remodeling (TRAP/ALP stains), compared to those treated with Supercrit®. These results can be attributed to the less aggressive chemical process of the Goxcrit, which preserves the bone's inner structure critical for remodeling. Our study highlighted the interest of using a porcine bone source treated with the Goxcrit process to meet the growing demand for reliable and effective bone substitutes.

摘要

骨异种移植是自体移植或同种异体移植的一种有前景的替代方法,但动物源组织中的抗原性仍然是其临床应用的主要限制。为了消除任何污染风险或同种异体排斥反应,开发了Supercrit®工艺来处理同种异体人骨,该工艺结合了超临界CO处理,随后使用大量不同溶剂进行化学处理。本研究的目的是通过开发一种新的一步超临界工艺“Goxcrit”来生产异种骨替代物并对其进行测试。这种新工艺通过在压力下将溶剂注入超临界CO流中减少了溶剂的使用,同时保持了骨基质的清洁质量并更好地保留了其内部结构,这对其未来的骨整合至关重要。使用Goxcrit或Supercrit®处理猪源骨样本,并与用Supercrit®处理的人骨(商业化的同种异体骨移植)进行比较。分析表明不存在细胞毒性以及主要负责跨物种免疫原性的α-半乳糖表位。此外,实验显示与用Supercrit®处理的大鼠相比,植入Goxcrit样本的大鼠颅骨关键缺损处(骨体积分数和冯·科萨分析)骨形成得到改善,伴有骨重塑(抗酒石酸酸性磷酸酶/碱性磷酸酶染色)。这些结果可归因于Goxcrit的化学处理不那么剧烈,从而保留了对重塑至关重要的骨内部结构。我们的研究强调了使用经Goxcrit工艺处理的猪骨来源以满足对可靠且有效的骨替代物不断增长的需求的意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4dfa/11930176/14d7f73e12a0/mmcfigs5.jpg
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