Development of personalized cell-populated vascular graft in vitro

Abstract

Aim. To create a personalized cell-populated small-diameter vascular prosthesis in a pulsating bioreactor.Methods. Tubular grafts were made by electrospinning from mixtures of biodegradable polymers, poly (3-hydroxybutyrate-co-3-hydroxyvalerate) (PHBV) and poly(εcaprolactone) (PCL). The inner surface is modified with fibrin. Tubular scaffolds were colonized with cultured colony-forming endothelial cells and grown under static conditions for 2 days. Then, the cell-populated prostheses continued to be cultivated for 5 days in a pulsating bioreactor system with a final shear stress of 2.85 dynes/cm².Results. The advantages of the cultivation of cell-populated vascular prostheses in a pulsating bioreactor have been revealed. The selected mode of cultivation of cellpopulated vascular prostheses under conditions of a pulsating flow with a shear stress of 2.85 dynes/cm² did not have a damaging effect on the integrity of the endothelial monolayer. Moving unidirectional mechanical stimuli of chaotic orientation fibers of F-actin changed to a predominant orientation in the direction of flow, and also increased the expression of F-actin, Talin focal adhesion protein, and specific endothelial markers CD309, CD31, vWF.Conclusion. The creation of a personalized cell-populated small-diameter vascular prosthesis with a functional endothelial monolayer is possible due to the use of autologous endothelial cells, autologous fibrin, and cultivation under conditions of a pulsating flow.