3D Culturing of Stem Cells: An Emerging Technique for Advancing Fundamental Research in Regenerative Medicine

Abstract

Regenerative medicine has been coming into spotlight ever since the realisation that conventional treatments are not enough, and the need for specific therapies has emerged. This, however, has paved way for cell-free therapy using extracellular vesicles. A two-dimensional (2D) cell culture model is widely recognised as the “gold standard” for researching cellular communications ex vivo. Although the 2D culture technique is straightforward and easy to use, it cannot replicate the in vivo ECM interactions & microenvironment. On the contrary, 3D culture culturing technology has emerged which include structures such as spheroids and organoids. Organoids are small replicas of in vivo tissues and organs, which faithfully recreate their structures and functions. These could be used as models to derive stem cells based EVs for manufacturing purposes. The linkages between infection and cancer growth, as well as mutation and carcinogenesis, may be modelled using this bioengineered platform. All in all, 3D culturing derived EVs serves as a novel platform for diagnostics, drug discovery & delivery, and therapy.