Staff member


Juanma Fernandez Costa

Postdoctoral Researcher
Biosensors for bioengineering
jfernandez@ibecbarcelona.eu
+34 934 024248
Staff member publications

Velasco, Ferran, Fernandez-Costa, Juan M., Neves, Luisa, Ramon-Azcon, Javier, (2020). New volumetric CNT-doped Gelatin-Cellulose scaffold for skeletal muscle tissue engineering Nanoscale Advances 2, (7), 2885-2896

Currently, the fabrication of scaffolds for engineered skeletal muscle tissue is unable to reach the millimeter size. The main drawbacks are the poor nutrients diffusion, lack of internal structure to align precursor cells as well as poor mechanical and electric properties. Herein, we present a combination of gelatin-carboxymethyl cellulose materials polymerised by a cryogelation process that allowed us to reach scaffold fabrication up to millimeters size and solve the main problems related with large size muscle tissue constructs. 1) By incorporating carbon nanotubes (CNT) we can improve the electrical properties of the scaffold, thereby enhancing tissue maturation when applying an electric pulse stimulus (EPS). 2) We have fabricated an anisotropic internal three-dimensional microarchitecture pore distribution with high aligned morphology to enhance cells alignment, cell fusion and myotubes formation. With this set up, we were able to generate a fully functional skeletal muscle tissue using a combination of EPS and our doped-biocomposite scaffold and obtain a mature tissue in a millimeter scale. We also characterized pore distribution, swelling, stiffness and conductivity of the scaffold. Moreover, we proved that the cells are viable and able to fuse in a three-dimensional (3D) functional myotubes throughout the scaffold. In conclusion, we fabricate a biocompatible and customizable scaffold for 3D cell culture suitable for a wide range of application such as organ-on-a-chip, drug screening, transplantation and disease modelling.