Biomimetic composite scaffolds based on surface modification of polydopamine on electrospun poly(lactic acid)/cellulose nanofibrils

摘要

Highlights ? PLA/CNF composite nanofiber was successfully fabricated by electrospinning technique. ? PDA-coated PLA/CNF composite nanofiber can be prepared by treating in the dopamine solution. ? CNF was successfully used as an additive to improve the deposition rate of PDA coating layers. ? The hydrophilicity, mechanical properties and biocompatibility of PLA/CNF/PDA scaffolds increases with the formation of PDA. Abstract An appropriate surface chemical property is crucial in tissue engineering scaffolds, which promotes cell attachment and proliferation. A biomimetic composite scaffold with a polydopamine (PDA) coating layer on electrospun poly(lactic acid) (PLA)/cellulose nanofibrils (CNF) composite nanofiber was developed in this study. PLA/CNF composite nanofibers were fabricated and then coated via treatment with a dopamine solution. The PDA coating layer was successfully formed on the surface of the PLA/CNF composite nanofiber by using a simple, environment-friendly, and effective procedure. Results indicated that the addition of CNF into the PLA matrix can effectively improve the deposition rate of the PDA coating layer on the surface of the composite nanofiber during the initial stage of coating because of hydrogen bonding between the CNF and PDA molecular chains. The hydrophilicity and mechanical properties of the PLA/CNF–PDA scaffold were higher than those of the PLA/CNF scaffold. In addition, the cell culture test showed that the adhesion, proliferation, and growth of human mesenchymal stem cells (hMSCs) cultured on the PLA/CNF–PDA scaffold were significantly enhanced relative to those cultured on the PLA/CNF scaffold because of the introduction of the PDA coating. This finding suggested that surface biofunctionalization via the PDA coating layer could simply and effectively enhance cell biocompatibility for polymer-based scaffolds. ]]>