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3D print

3d printing embryoid body

 Depending on the signals sent by their adjacent cells, these divided cells are then developed or differentiated into specific tissues or organs.

One common approach scientists adopt when differentiating stem cells is by using chemical stimulators. While this method is very efficient to make one single type of cells, it lacks the ability to reproduce the complexity of living organisms, where several cell types coexist and collaborate to form an organ.

Alternatively, inspired by the natural process of cell development, another method involves the packing of stem cells into small cellular aggregates, or spheres called embryoid bodies. Similar to real embryos, the cell-cell interaction in embryoid bodies is the main driver of differentiation. From the production of these embryoid bodies, it was found that parameters such as cell numbers, size, and sphericity of the embryoid body influenced the types of cells that are produced.

However, since scientists have not been able to control those parameters, they have had to laboriously produce large numbers of embryoid bodies and select specific ones with suitable characteristics to be studied.

To address this challenge, researchers from the Singapore University of Technology and Design (SUTD) turned to additive manufacturing to control stem cell differentiation in embryoid bodies.

 

reference

Rupambika Das et al, Additive manufacturing enables production of de novo cardiomyocytes by controlling embryoid body aggregation, Bioprinting (2020). DOI: 10.1016/j.bprint.2020.e00091

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