The Department of Plastic and Burn Surgery, The Second Hospital, Cheeloo College of Medicine, Shandong University, Jinan, Shandong, China.
Department of Research and Development, Shanghai Jingchen Biotechnology co, LTD, Shanghai, China.
J Biomater Sci Polym Ed. 2020 Oct;31(14):1820-1835. doi: 10.1080/09205063.2020.1778236. Epub 2020 Jun 21.
Minimally invasive implantation of porous implants with large volume for filling proposes high requirements for material preparation. Porous scaffolds based on shape memory polymer (SMP) possess great potential for being delivered as the compact form minimally invasive surgery. Here, poly (ε-caprolactone)-dienes (PCL-dienes) and crylic acid (AA) were polymerized and cross-linked to fabricate SMP scaffolds, the porous structure of which was created through particle leaching method. Three scaffolds, PAA-PCL20, PAA-PCL50 and PAA-PCL80 were fabricated with different content of PCL-dienes, possessing similar pore size (350 μm) and porosity (85%). PAA-PCL50 scaffold had a T of 38 °C, exhibiting shape fixing ability at room temperature and shape recovery ability at body temperature. All scaffolds showed limited interaction with cells. The cell adhesion rate of PAA-PCL50 scaffold was 55%, the highest among the three scaffolds. To promote cellular adhesion, PAA-PCL50 scaffold was mineralized precipitation, exhibiting CaP particles on the inner surfaces. The mineralized scaffold still exhibited well-performed deformation and shape memory ability, with higher cell adhesion rate (86%) and proliferation rate. implantation result indicated that the mineralized PAA-PCL50 scaffold better supported tissue invasion, holding a great promise to improve neo-tissue formation.
多孔植入物的微创植入对材料制备提出了很高的要求。基于形状记忆聚合物(SMP)的多孔支架具有作为微创手术的紧凑形式进行输送的巨大潜力。在这里,聚(ε-己内酯)-二烯(PCL-二烯)和丙烯酸(AA)被聚合和交联以制造 SMP 支架,其多孔结构通过颗粒浸出法创建。用不同含量的 PCL-二烯制造了三种支架,PAA-PCL20、PAA-PCL50 和 PAA-PCL80,它们具有相似的孔径(350μm)和孔隙率(85%)。PAA-PCL50 支架的 T 为 38°C,在室温下具有形状固定能力,在体温下具有形状恢复能力。所有支架与细胞的相互作用都有限。PAA-PCL50 支架的细胞黏附率为 55%,在三种支架中最高。为了促进细胞黏附,对 PAA-PCL50 支架进行了沉淀矿化处理,在内表面显示出 CaP 颗粒。矿化支架仍然表现出良好的变形和形状记忆能力,具有更高的细胞黏附率(86%)和增殖率。植入结果表明,矿化 PAA-PCL50 支架更好地支持组织入侵,有望改善新组织形成。
