自体软骨工程。
Autologous engineering of cartilage.
机构信息
Department of Orthopedic Surgery, Maastricht University Medical Centre, Maastricht, 6200 MD, Netherlands.
出版信息
Proc Natl Acad Sci U S A. 2010 Feb 23;107(8):3418-23. doi: 10.1073/pnas.0907774107. Epub 2010 Feb 4.
Abstract
Treatment of full-thickness damage to hyaline cartilage is hampered by the limited availability of autologous healthy cartilage and the lengthy, cost-prohibitive cell isolation and expansion steps associated with autologous cartilage implantation (ACI). Here we report a strategy for de novo engineering of ectopic autologous cartilage (EAC) within the subperiosteal space (in vivo bioreactor), through the mere introduction of a biocompatible gel that might promote hypoxia-mediated chondrogenesis, thereby effectively overcoming the aforementioned limitations. The EAC is obtained within 3 wk post injection of the gel, and can be press-fit into an osteochondral defect where it undergoes remodeling with good lateral and subchondral integration. The implanted EAC showed no calcification even after 9 mo and attained an average O'Driscoll score of 11 (versus 4 for controls). An "on demand" autologous source of autologous cartilage with remodeling capacity is expected to significantly impact the clinical options in repair of trauma to articular cartilage.
摘要
治疗全层透明软骨损伤受到自体健康软骨供应有限以及与自体软骨移植(ACI)相关的细胞分离和扩增步骤漫长且费用高昂的阻碍。在这里,我们报告了一种在骨膜下空间(体内生物反应器)中从头构建异位自体软骨(EAC)的策略,仅通过引入一种可能促进缺氧介导的软骨生成的生物相容性凝胶,从而有效地克服了上述限制。在注射凝胶后 3 周内获得 EAC,可以将其压配合到骨软骨缺损中,在那里它可以进行重塑,并具有良好的侧向和软骨下整合。即使在 9 个月后,植入的 EAC 也没有钙化,并获得了平均 11 分的 O'Driscoll 评分(对照组为 4 分)。预计具有重塑能力的自体软骨的“按需”自体来源将显著影响关节软骨创伤修复的临床选择。
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