Haotian Han, Zhihua Zhou, Ting Shang, Shuaijun Li, Xiang Shen, Jianjun Fang, Lei Cui
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引用次数: 0
摘要
蚕丝纤维素(SF)是一种天然聚合物,可用于在各种工程应用中制造多孔支架,因而备受关注。然而,蚕丝纤维素有限的骨诱导特性阻碍了其在骨修复应用中的功效。在这项研究中,我们构建了一种基于 SF 的可注射多孔微载体,其中掺杂了含有镁离子(Mg2+)的青石(LAP)。研究了冷冻温度、SF 和 LAP 的浓度对 SF-LAP 微载体结构参数的影响。SF-LAP 微载体的孔隙率为 76.7 ± 1.2%,孔径控制在 24.6 ± 4.0 μm。在六周的体外降解试验中,检测到含有 SF-LAP 微载体的培养基呈弱碱性。六周内,SF-LAP 微载体释放的 Mg2+ 浓度保持在 1.2-2.3 mM 范围内。与纯 SF 微载体相比,SF-LAP 微载体中播种的人类脂肪源性干细胞(ADSCs)的成骨分化能力显著增强,这一点可以从定量碱性磷酸酶(ALP)活性和成骨标记基因的表达得到证明。这些发现强调了 SF-LAP 微载体作为治疗骨缺损的理想细胞载体的潜力。
Silk Fibroin-Laponite Porous Microspheres as Cell Microcarriers for Osteogenic Differentiation.
Silk fibroin (SF) has garnered significant attention as a natural polymer for fabricating porous scaffolds in various engineering applications. However, the limited osteoinductive property of SF has hindered its efficacy in bone repair applications. In this study, we constructed an SF-based injectable porous microcarrier that is doped with laponite (LAP), containing magnesium ions (Mg2+). The influence of freezing temperatures and concentrations of SF and LAP on the structural parameters of SF-LAP microcarriers was investigated. The SF-LAP microcarrier exhibited a porosity of 76.7 ± 1.2% and a controlled pore size of 24.6 ± 4.0 μm. At the 6 weeks of in vitro degradation test, a mild alkaline level in culture medium containing SF-LAP microcarriers was detected. The release of Mg2+ from the SF-LAP microcarrier was maintained at a concentration within the range of 1.2-2.3 mM during the 6 weeks. The seeded human adipose-derived stem cells in the SF-LAP microcarrier demonstrated a significant enhancement in osteogenic differentiation compared with cells seeded in the pure SF microcarrier, as evidenced by quantitative alkaline phosphatase activity and the expression of osteogenic marker genes. These findings underscore the potential of the SF-LAP microcarrier as an ideal cell carrier in the treatment of bone defects.
期刊介绍:
Tissue Engineering is the preeminent, biomedical journal advancing the field with cutting-edge research and applications that repair or regenerate portions or whole tissues. This multidisciplinary journal brings together the principles of engineering and life sciences in the creation of artificial tissues and regenerative medicine. Tissue Engineering is divided into three parts, providing a central forum for groundbreaking scientific research and developments of clinical applications from leading experts in the field that will enable the functional replacement of tissues.
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