Characterization of Hybrid Bioactive Glass-polyvinyl Alcohol Scaffolds Containing a PTHrP-derived Pentapeptide as Implants for Tissue Engineering Applications.

Q3 Medicine Open Biomedical Engineering Journal Pub Date : 2014-03-07 eCollection Date: 2014-01-01 DOI:10.2174/1874120701408010020
D J Coletta, D Lozano, A A Rocha-Oliveira, P Mortarino, G E Bumaguin, E Vitelli, R Vena, L Missana, M V Jammal, S Portal-Núñez, M Pereira, P Esbrit, S Feldman
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Abstract

Hybrid foam (BG-PVA) with 50 % Bioactive glass (BG) and 50 % polyvinyl alcohol (PVA) was prepared by sol-gel process to produce scaffolds for bone tissue engineering. The pore structure of hydrated foams was evaluated by 3-D confocal microscopy, confirming 70% porosity and interconnected macroporous network. In this study, we assessed the putative advantage of coating with osteostatin pentapeptide into BG-PVA hybrid scaffolds to improve their bioactivity. In vitro cell culture experiments were performed using mouse pre-osteoblastic MC3T3-E1 cell line. The exposure to osteostatin loaded-BG-PVA scaffolds increase cell proliferation in contrast with the unloaded scaffolds. An in vivo study was selected to implant BG-PVA scaffolds, non-coated (Group A) or coated (Group B) with osteostatin into non critical bone defect at rabbit femur. Both groups showed new compact bone formation on implant surface, with lamellae disposed around a haversian canal forming osteons-like structure. We observed signs of inflammation around the implanted unloaded scaffold at one month, but resolved at 3 months. This early inflammation did not occur in Group B; supporting the notion that osteostatin may act as anti-inflammatory inhibitor. On the other hand, Group B showed increased bone formation, as depicted by many new trabeculae partly mineralized in the implant regenerating area, incipient at 1 month and more evident at 3 months after implantation. PVA/BG hybrid scaffolds present a porous structure suitable to support osteoblast proliferation and differentiation. Our in vitro and in vivo findings indicate that osteostatin coating improves the osteogenic features of these scaffolds.

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将含有 PTHrP 衍生五肽的混合生物活性玻璃-聚乙烯醇支架作为组织工程应用的植入物的表征。
采用溶胶-凝胶工艺制备了含 50% 生物活性玻璃(BG)和 50% 聚乙烯醇(PVA)的混合泡沫(BG-PVA),用于生产骨组织工程支架。通过三维共聚焦显微镜评估了水合泡沫的孔隙结构,证实其孔隙率为 70%,并具有相互连接的大孔网络。在本研究中,我们评估了在 BG-PVA 混合支架中涂覆骨生成素五肽以提高其生物活性的潜在优势。我们使用小鼠前成骨细胞 MC3T3-E1 细胞系进行了体外细胞培养实验。与未负载的支架相比,暴露于负载骨生长因的 BG-PVA 支架会增加细胞增殖。研究人员选择了一项体内研究,将无骨质素涂层(A 组)或有骨质素涂层(B 组)的 BG-PVA 支架植入兔股骨的非临界骨缺损处。两组均在植入物表面形成了新的致密骨质,片状骨质分布在哈弗氏管周围,形成类似骨小梁的结构。一个月后,我们观察到植入的无负荷支架周围出现炎症迹象,但在 3 个月后消退。B 组没有出现这种早期炎症,这支持了骨化抑制素可作为抗炎抑制剂的观点。另一方面,B 组的骨形成增加,表现为植入物再生区域有许多新的骨小梁,部分矿化,植入 1 个月时初露端倪,3 个月后更加明显。PVA/BG 混合支架具有多孔结构,适合支持成骨细胞的增殖和分化。我们的体外和体内研究结果表明,骨生成素涂层可改善这些支架的成骨功能。
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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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