A Comparative Study in the Printability of a Bioink and 3D Models Across Two Bioprinting Platforms.

In this study, we used an alginate-gelatin bioink to design and print 3D constructs with lattice, honeycomb and fibrous bundle patterns. These designs were printed using a small-scale laboratory printer, at first and later translated to a larger scale, high throughput-printing platform. A comparative analysis of the structures printed using two dissimilar platforms using gross morphologic evaluation, scanning electron microscopy and swelling assay confirmed our hypothesis that a design printed using a small-scale laboratory bioprinter for optimization of bioink composition and printing parameters can be successfully translated into a large scale-printing platform for high throughput printing of constructs. Since the designs for printing were implemented using a software which was common across both printers, this endpoint was feasible. The only difference in printing parameters resulted from variation in extrusion pressure which was due to a significant difference in barrel size used across both printers (3 ml versus 30 ml), while all other parameters stayed the same. Although the scaffolds were not bioprinted with cells, in future we will investigate how cell viability can be differentially regulated by the variation of extrusion pressure across both platforms.