What question did this study set out to answer?

The aim is to determine optimal 3D printing parameters for agarose hydrogel to enhance scaffold quality.

January 25, 2026Open Access

A simple method to assess the optimum 3D printing parameters, using agarose hydrogel

Puntos clave

The aim is to determine optimal 3D printing parameters for agarose hydrogel to enhance scaffold quality.
Analyzed and optimized printing parameters for agarose hydrogel.
Utilized a 25G needle at various speeds and pressures.
Improved shape fidelity by incorporating 3% laponite.
Achieved a maximum accuracy of 97.29% with 2% agarose at 6 mm/s and 40 kPa.
Shape fidelity enhanced, resulting in over 83% accuracy for printed grids.
Successfully printed scaffolds suitable for further investigation in tissue engineering.

Resumen

Abstract 3D printing is a growing technique that allows building complex structures with controlled properties. Scaffolds are essential as support for cells, being commonly produced using hydrogels. In this work, the printing parameters for agarose were analyzed and optimized, observing that agarose is a printable biomaterial. The best accuracy, considering a line, was 97.29%, for 2% of agarose and using a 25G needle at 6 mm/s and 40 kPa. Moreover, the shape fidelity of a grid was improved by adding 3% of laponite, obtaining an accuracy over 83%. Afterwards, a scaffold was successfully printed, which can be further investigated for tissue engineering applications. Graphical Abstract

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Cite This Study

Teixeira et al. (Fri,) studied this question.

synapsesocial.com/papers/6975b2c8feba4585c2d6e38c https://doi.org/https://doi.org/10.1557/s43579-025-00915-6

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