Interdisciplinary Research Centre in Biomedical Materials, COMSATS University Islamabad, Lahore Campus, Defence Road, Off Raiwind Road, Lahore 54000, Pakistan.
Interdisciplinary Research Centre in Biomedical Materials, COMSATS University Islamabad, Lahore Campus, Defence Road, Off Raiwind Road, Lahore 54000, Pakistan.
Mater Sci Eng C Mater Biol Appl. 2019 Aug;101:438-447. doi: 10.1016/j.msec.2019.03.080. Epub 2019 Mar 23.
With an increase in the demand for skin regeneration products, there is a noticeable increase in developing materials that encourage, wound healing and skin regeneration. It has been reported that antioxidants play an important role in anti-inflammatory reactions, cellular proliferation and remodeling phase of wound healing. While consideration all these factors, a novel α-tocopherol acetate (vitamin E) (VE) loaded bi-layered electrospun membrane, based on lower polycaprolactone (PCL) layer and upper polylactic acid (PLA) layer, was fabricated through electrospinning. Fourier-transform infrared spectroscopy (FTIR), scanning electron microscopy (SEM), in-vitro degradation studies, swelling studies and VE release studies were performed to evaluate structural, physical and in-vitro behavior of membranes. Biological properties of membranes were evaluated through cell proliferation assay, cell adhesion studies, live/dead cell assay and CAM assay. SEM images showed that the average diameter of nanofibers ranged from 1 to 6 μm, while addition of VE changed the diameter and morphology of fibers. Bi-layered membranes showed significant swelling behavior through water uptake, membranes loaded with 30% VE showed 8.7% and 6.8% degradation in lysozyme and HO respectively. 20% and 30% VE loaded membranes followed Korsmeyer-Peppas and first order drug release kinetics followed by non-fickian drug release kinetics. Membranes showed non-toxic behavior and supported cell proliferation via alamar blue assay, cell adhesion via SEM, cell viability via live/dead assay and wound healing by scratch assay. CAM assay showed that membranes having VE supported angiogenesis and showed significant formation of blood vessels making it suitable for skin regeneration and wound healing. Results showed that large surface area of nanofibers, porous structure and biocompatible nature are suitable for targeted clinical applications.
随着对皮肤再生产品需求的增加,开发促进伤口愈合和皮肤再生的材料的需求明显增加。据报道,抗氧化剂在抗炎反应、细胞增殖和伤口愈合的重塑阶段发挥着重要作用。在考虑所有这些因素的情况下,通过静电纺丝制备了一种新型的基于下层聚己内酯(PCL)层和上层聚乳酸(PLA)层的α-生育酚醋酸酯(维生素 E)(VE)负载的双层电纺膜。傅里叶变换红外光谱(FTIR)、扫描电子显微镜(SEM)、体外降解研究、溶胀研究和 VE 释放研究用于评估膜的结构、物理和体外行为。通过细胞增殖试验、细胞黏附研究、活/死细胞试验和 CAM 试验评估膜的生物学特性。SEM 图像显示,纳米纤维的平均直径为 1 至 6 μm,而添加 VE 改变了纤维的直径和形态。双层膜通过吸水表现出明显的溶胀行为,负载 30%VE 的膜在溶菌酶和 HO 中的降解分别为 8.7%和 6.8%。20%和 30%VE 负载的膜遵循 Korsmeyer-Peppas 和一级药物释放动力学,随后是非菲克药物释放动力学。膜表现出无毒行为,并通过 alamar blue 试验支持细胞增殖,通过 SEM 观察细胞黏附,通过活/死试验观察细胞活力,通过划痕试验观察伤口愈合。CAM 试验表明,含有 VE 的膜支持血管生成,并显示出明显的血管形成,使其适合皮肤再生和伤口愈合。结果表明,较大的纳米纤维表面积、多孔结构和生物相容性适合于靶向临床应用。
