Abstract

Poor oxygen transport is a major obstacle currently for 3D microtissue culture platforms, which at this time cannot be grown large enough to be truly physiologically relevant and replicate adult human organ functions. To overcome internal oxygen transport deficiencies, oxygenating microgels are formed utilizing perfluorocarbon (PFC) modified chitosan and a highly scalable water-in-oil miniemulsion method. Microgels that are on the order of a cell diameter (≈10 µm) are formed allowing them to directly associate with cells when included in 3D spheroid culture, while not being internalized. The presence of immobilized PFCs in these microgels allows for enhancement and tuning of oxygen transport when incorporated into cultured microtissues. As such, it is demonstrated that incorporating oxygenating microgels at ratios ranging from 50:1 to 400:1 (# of cells:# of microgels) into dense human fibroblast-based spheroids facilitated the growth of larger human cell-based spheroids, especially at the highest incorporation percentages (50:1), which lacked defined hypoxic cores. Quantification of total double-stranded (ds)-DNA, a measure of number of live cells, demonstrated similar results to hypoxia quantification, showing more ds-DNA due incorporation of oxygenating microgels. Finally, oxygen concentrations are measured at different depths within spheroids directly and confirmed higher oxygen partial pressures due to chitosan-PFC microspheres.

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