Biobased hydrogels are promising scaffolds for three-dimensional (3D) cell culture, but achieving suitable mechanical stability while minimizing the use of synthetic polymers remains challenging. In this study, chitosan-based hydrogels containing very low concentrations of poly(vinyl alcohol) (PVA) (95%). Hydrogels containing ~0.8 wt.-% PVA displayed the highest mechanical stability and adhesion after water immersion, while hydrogels with ~0.2 wt.-% PVA promoted rapid formation of complete 3D C2C12 spheroids within two days. These results demonstrate that trace amounts of PVA can effectively tune the properties of chitosan hydrogels, enabling the design of largely biobased scaffolds for 3D cell culture and soft tissue engineering. • Facile physical crosslinking at mild temperature • PVA content in chitosan/PVA hydrogels ≤ 1 wt.-% • High PVA with ~ 0.8 wt.-% citric acid ensured physical stability after water immersion • Low PVA with ~ 0.8 wt.-% citric acid enabled 3D C2C12 spheroids by day 2
Nugroho et al. (Fri,) studied this question.
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