Investigating the Effect of Processing and Material Parameters of Alginate Dialdehyde-Gelatin (ADA-GEL)-Based Hydrogels on Stiffness by XGB Machine Learning Model
Duygu Ege, Aldo R. Boccaccini

TL;DR
This study uses machine learning to predict how different factors affect the stiffness of ADA-GEL hydrogels used in 3D bioprinting and tissue engineering.
Contribution
A novel XGB machine learning model is developed to predict hydrogel stiffness based on multiple processing and material parameters.
Findings
Higher gelatin content weakens the scaffold due to unbound gelatin.
Smaller pore sizes and higher BG filler content increase hydrogel stiffness.
ADA-GEL ratio and BG inclusion are key factors in tailoring hydrogel stiffness.
Abstract
To address the limitations of alginate and gelatin as separate hydrogels, partially oxidized alginate, alginate dialdehyde (ADA), is usually combined with gelatin to prepare ADA-GEL hydrogels. These hydrogels offer tunable properties, controllable degradation, and suitable stiffness for 3D bioprinting and tissue engineering applications. Several processing variables affect the final properties of the hydrogel, including degree of oxidation, gelatin content and type of crosslinking agent. In addition, in 3D-printed structures, pore size and the possible addition of a filler to make a hydrogel composite also affect the final physical and biological properties. This study utilized datasets from 13 research papers, encompassing 33 unique combinations of ADA concentration, gelatin concentration, CaCl2 and microbial transglutaminase (mTG) concentrations (as crosslinkers), pore size, bioactive…
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Taxonomy
TopicsPolitical Economy and Marxism
