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Tuning Shear Thinning Factors Of 3d Bio-Printable Hydrogels Using Short Fiber, Slesha Tuladhar, Scott Clark, Ahasan Habib
Tuning Shear Thinning Factors Of 3d Bio-Printable Hydrogels Using Short Fiber, Slesha Tuladhar, Scott Clark, Ahasan Habib
New Hampshire EPSCoR
Among various available 3D bioprinting techniques, extrusion-based three-dimensional (3D) bioprinting allows the deposition of cell-laden bioink, ensuring predefined scaffold architecture that may offer living tissue regeneration. With a combination of unique characteristics such as biocompatibility, less cell toxicity, and high water content, natural hydrogels are a great candidate for bioink formulation for the extrusion-based 3D bioprinting process. However, due to its low mechanical integrity, hydrogel faces a common challenge in maintaining structural integrity. To tackle this challenge, the rheological properties, specifically the shear thinning behavior (reduction of viscosity with increasing the applied load/shear rate on hydrogels) of a set of …