Optimization of Gelatin and Crosslinker Concentrations in a Gelatin/Alginate-Based Bioink with Potential Applications in a Simplified Skin Model

Optimization of Gelatin and Crosslinker Concentrations in a Gelatin/Alginate-Based Bioink with Potential Applications in a Simplified Skin Model

Blog Article

Three-dimensional bioprinting allows for the fabrication of structures mimicking tissue architecture.This study aimed to develop a gelatin-based bioink for a bioprinted Heart Shaped Acrylic Plaque simplified skin model.The bioink printability and chemical-physical properties were evaluated by varying the concentrations of gelatin (10, 15, and 20%) in a semi-crosslinked alginate-based bioink and calcium chloride (100, 150, and 200 mM) in post-printing crosslinking.For increasing the gelatin concentration, the gelatin-based formulations have a shear thinning behavior with increasing viscosity, and the filament bending angle increases, the spreading ratio value approaches 1, and the shape fidelity and the printing resolution improve.However, the formulation containing 20% of gelatin was not homogeneous, resulting also in poor printability properties.

The morphology of the pores, degradation, and swelling depend on gelatin and CaCl2 concentrations, but not in a significant way.The samples containing Coat 15% of gelatin and crosslinked with 150 mM CaCl2 have been selected for the bioprinting of a bilayer skin model containing human fibroblasts and keratinocytes.The model showed a homogeneous distribution of viable and proliferating cells over up to 14 days of in vitro culture.The gelatin-based bioink allowed for the 3D bioprinting of a simplified skin model, with potential applications in the bioactivity of pro-reparative molecules and drug evaluation.