可生物降解的光交联海藻酸钠纳米纤维支架,具有可调的物理性能、细胞黏附性和生长因子释放。
Biodegradable photo-crosslinked alginate nanofibre scaffolds with tuneable physical properties, cell adhesivity and growth factor release.
机构信息
Department of Biomedical Engineering and Orthopaedic Surgery, Case Western Reserve University, Cleveland, OH 44106, USA.
出版信息
Eur Cell Mater. 2012 Oct 16;24:331-43. doi: 10.22203/ecm.v024a24.
Abstract
Nanofibrous scaffolds are of interest in tissue engineering due to their high surface area to volume ratio, interconnected pores, and architectural similarity to the native extracellular matrix. Our laboratory recently developed a biodegradable, photo-crosslinkable alginate biopolymer. Here, we show the capacity of the material to be electrospun into a nanofibrous matrix, and the ability to enhance cell adhesion and proliferation on these matrices by covalent modification with cell adhesion peptides. Additionally, the potential of covalently incorporating heparin into the hydrogels during the photopolymerisation process to sustain the release of a heparin binding growth factor via affinity interactions was demonstrated. Electrospun photo-crosslinkable alginate nanofibrous scaffolds endowed with cell adhesion ligands and controlled delivery of growth factors may allow for improved regulation of cell behaviour for regenerative medicine.
摘要
纳米纤维支架因其高表面积与体积比、相互连通的孔和与天然细胞外基质相似的结构而在组织工程中受到关注。我们实验室最近开发了一种可生物降解的、光交联的藻酸盐生物聚合物。在这里,我们展示了该材料可被电纺成纳米纤维基质的能力,并通过与细胞黏附肽的共价修饰来增强细胞在这些基质上的黏附和增殖能力。此外,还证明了在光聚合过程中通过亲和相互作用将肝素共价结合到水凝胶中以持续释放肝素结合生长因子的潜力。通过静电纺丝将光交联的藻酸盐纳米纤维支架赋予细胞黏附配体和生长因子的控释能力,可能会改善再生医学中细胞行为的调控。
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