Staff member

Maria Guix Noguera

Postdoctoral Researcher
Smart Nano-Bio-Devices

Staff member publications

Vilela, Diana, Guix, Maria, Parmar, Jemish, Blanco‐Blanes, Àngel, Sánchez, Samuel, (2022). Micromotor‐in‐Sponge Platform for Multicycle Large‐Volume Degradation of Organic Pollutants Small , 2107619

Mestre, R., Patiño, T., Guix, M., Barceló, X., Sánchez, S., (2019). Design, optimization and characterization of bio-hybrid actuators based on 3D-bioprinted skeletal muscle tissue Biomimetic and Biohybrid Systems 8th International Conference, Living Machines 2019 (Lecture Notes in Computer Science) , Springer International Publishing (Nara, Japan) 11556, 205-215

The field of bio-hybrid robotics aims at the integration of biological components with artificial materials in order to take advantage of many unique features occurring in nature, such as adaptability, self-healing or resilience. In particular, skeletal muscle tissue has been used to fabricate bio-actuators or bio-robots that can perform simple actions. In this paper, we present 3D bioprinting as a versatile technique to develop these kinds of actuators and we focus on the importance of optimizing the designs and properly characterizing their performance. For that, we introduce a method to calculate the force generated by the bio-actuators based on the deflection of two posts included in the bio-actuator design by means of image processing algorithms. Finally, we present some results related to the adaptation, controllability and force modulation of our bio-actuators, paving the way towards a design- and optimization-driven development of more complex 3D-bioprinted bio-actuators.

Keywords: 3D bioprinting, Bio-hybrid robotics, Muscle-based bio-actuators