静电纺丝的主要参数对ＰＬＧＡ纤维支架形貌和纤维直径的影响

目的以聚乳酸-羟基乙酸共聚物(PLGA)为材料,采用静电纺丝方法制备纤维支架,考察制备参数对纤维支架结构及纤维直径的影响规律。方法以四氢呋喃(THF)和N,N-二甲基甲酰胺(DMF)的混合液为溶剂,调节PLGA溶液浓度、流量及电场强度分别制备了具有不同表面形貌的纤维支架。通过扫描电镜(SEM)观察了纺丝溶液的浓度、流量及电场强度对纤维形貌和直径的影响。同时在制备的PLGA纤维支架上接种了人的真皮成纤维细胞,并对细胞在PLGA支架上的黏附和增殖情况进行了研究,从而来评价支架材料的细胞相容性。结论结果表明,随着纺丝溶液浓度的增加,纤维直径逐渐增大,纤维直径的分布也随之增大。随着流量的增加,纤维直径略有增大。随着电场强度的增大,纤维直径没有明显的变化。但是电压和浓度的增大有助于减少珠丝的产生。体外细胞培养实验证明,制备的PLGA纤维支架能支持细胞正常的黏附和增殖活动。

The Influence of Several Chief Parameters in Electrospinning on the Morphology and the Fiber Diameter of PLGA Fiber Scaffolds

To prepare PLGA fiber scaffolds by electrospinning process and investigate the influence of preparation parameters on the structure of the scaffolds. With the compound of THF and DMF as the solvent, the PLGA fiber scaffolds with different surface morphology were fabricated via altering PLGA solution concentration, flowing rate and applied electric field strength. The morphology and diameter of the fibers were observed using a scanning electron microscope (SEM). The biocompatibility of cell-scaffold complex was also evaluated by seeding human dermal fibroblasts onto the PLGA fiber scaffolds, including cell adhesion and proliferation. The results show that the diameter of fibers and the bound of distributing increase with the increase in the concentration of PLGA solution. As the flowing rate increases, the diameter of fibers increases. However, with the increase in the applied electric field strength, no significant difference in the diameter of the fiber can be observed. Furthermore, both the increase in the concentration of PLGA solution and applied electric field strength in the volume range of current investigation can lead to the reduction in the beads formation within the scaffold. The results of in vitro cell culture on the PLGA scaffolds also confirm that the PLGA fiber can support the adhesion and proliferation of huaman dermal fibroblasts.