Bone Defect Regeneration by a Combination of a β-Tricalcium Phosphate Scaffold and Bone Marrow Stromal Cells in a Non-Human Primate Model.

Q3 Medicine Open Biomedical Engineering Journal Pub Date : 2016-03-18 eCollection Date: 2016-01-01 DOI:10.2174/1874120701610010002
Tomokazu Masaoka, Toshitaka Yoshii, Masato Yuasa, Tsuyoshi Yamada, Takashi Taniyama, Ichiro Torigoe, Kenichi Shinomiya, Atsushi Okawa, Sadao Morita, Shinichi Sotome
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引用次数: 23

Abstract

Background: Reconstruction of large bone defects is a great challenge in orthopedic research. In the present study, we prepared composites of bone marrow-derived stromal cells (BMSCs) and β-tricalcium phosphate (β-TCP) with three novel aspects: proliferation of BMSCs with continuous dexamethasone treatment, cell loading under low pressure, and use of autologous plasma as the cell loading medium. The effectiveness of the resulting composite for large bone-defect reconstruction was tested in a non-human primate model, and the bone union capability of the regenerated bones was examined.

Materials and methods: Primary surgery: Bone defects (5 cm long) were created in the left femurs of nine cynomolgus monkeys with resection of the periosteum (five cases) or without resection (four cases), and porous β-TCP blocks were transplanted into the defects. Secondary surgery: Bone marrow aspirates harvested from seven of the nine monkeys were cultured with dexamethasone, and BMSCs were obtained. BMSCs were suspended in autologous plasma and introduced into a porous β-TCP block under low-pressure conditions. The BMSC/β-TCP composites were transplanted into bone defects created at the same sites as the primary surgery. Bone union evaluation: Five regenerated femurs were shortened by osteotomy surgery 8 to 15 months after transplantation of the β-TCP/BMSC composites, and bone union was evaluated radiographically.

Results: After the primary surgery and treatment with β-TCP alone, one of the five periosteum-resected monkeys and two of the four periosteum-preserved monkeys exhibited successful bone reconstruction. In contrast, five of the seven cases treated with the β-TCP/MSC composite showed successful bone regeneration. In four of the five osteotomy cases, bone union was confirmed.

Conclusion: We validated the effectiveness of a novel β-TCP/BMSC composite for large bone defect regeneration and confirmed the bone union capability of the regenerated bone.

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非人灵长类动物模型中β-磷酸三钙支架与骨髓基质细胞联合再生骨缺损的研究。
背景:大骨缺损的重建是骨科研究的一大难题。在本研究中,我们从三个方面制备了骨髓源性基质细胞(BMSCs)和β-磷酸三钙(β-TCP)的复合材料:连续地塞米松处理BMSCs的增殖,低压加载细胞,以及使用自体血浆作为细胞加载介质。在非人灵长类动物模型中测试了所得到的复合材料对大骨缺损重建的有效性,并检查了再生骨的骨愈合能力。材料与方法:一期手术:选取9只食蟹猴左股骨,切除骨膜(5例)或不切除骨膜(4例),造骨缺损(5cm长),在缺损处植入多孔β-TCP块。二次手术:从9只猴子中取出7只的骨髓,用地塞米松培养,获得骨髓间充质干细胞。将骨髓间充质干细胞悬浮在自体血浆中,并在低压条件下引入多孔β-TCP块。将BMSC/β-TCP复合材料移植到与初次手术相同部位的骨缺损中。骨愈合评价:移植β-TCP/BMSC复合材料后8 ~ 15个月,行截骨术缩短5根再生股骨,影像学评价骨愈合。结果:在初次手术和β-TCP单独治疗后,5只切除骨膜的猴子中有1只和4只保留骨膜的猴子中有2只成功重建了骨。相比之下,用β-TCP/MSC复合材料治疗的7例中有5例骨再生成功。在5例截骨术中,4例证实骨愈合。结论:我们验证了一种新型β-TCP/BMSC复合材料用于大骨缺损再生的有效性,并证实了再生骨的骨愈合能力。
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来源期刊
Open Biomedical Engineering Journal
Open Biomedical Engineering Journal Medicine-Medicine (miscellaneous)
CiteScore
1.60
自引率
0.00%
发文量
4
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