3D bioprinting of microorganisms: principles and applications

Abstract: In recent years, the ability to create intricate, live tissues and organs has been made possible thanks to three-dimensional (3D) bioprinting. Although tissue engineering has received a lot of attention, there is growing interest in the use of 3D bioprinting for microorganisms. Microorganisms like bacteria, fungi, and algae, are essential to many industrial bioprocesses, such as bioremediation as well as the manufacture of chemicals, biomaterials, and pharmaceuticals. This review covers current developments in… Show more

“…Furthermore, their production speed and total consumption prices differ, resulting in efficiency differences. As a result, the extrusion bioprinting technology appears to be the most promising option for producing therapeutically relevant scaffolds (cm range) ( Malda et al, 2013 ; Herzog et al, 2024 ; Padhy et al, 2024 ). Extrusion printing involves layer-by-layer bio-ink deposition on the printing platform through a cartridge nozzle ( Figure 3A ).…”

Bioprinting of gelatin-based materials for orthopedic application

“…Furthermore, their production speed and total consumption prices differ, resulting in efficiency differences. As a result, the extrusion bioprinting technology appears to be the most promising option for producing therapeutically relevant scaffolds (cm range) ( Malda et al, 2013 ; Herzog et al, 2024 ; Padhy et al, 2024 ). Extrusion printing involves layer-by-layer bio-ink deposition on the printing platform through a cartridge nozzle ( Figure 3A ).…”

Bioprinting of gelatin-based materials for orthopedic application