Conventional methods for 3D cell culture rely on human intervention across all steps of growth, including seeding stem cells, collecting aggregates, feeding differentiating cells long term, and ...

The first in vitro cell culture techniques were developed more than a century ago, and helped transform biological research. However, traditional 2D cultures grown on flat surfaces don’t ...

The complexity of the TME in vivo limits the conclusions that can be drawn from in vivo models. Optimizing cell culture ...

“If you’re aiming to grow and differentiate stem cells, you don't want exotic ... “The development of physiologically relevant 3D culture systems holds great potential to allow for testing ...

A consortium of Austrian research groups from the University of Vienna, MedUni Vienna and Technikum Wien, together with ...

since coaxing a stem cell to become a neuron or heart cell requires shifting it from one genetic program to another — each defined by a particular 3D genome structure. “We are uncovering the language ...

The global human organoid market has garnered considerable attention in recent years, emerging as one of the most promising ...

Stem cell cultures are derived from embryonic ... This includes the incorporation of multiple cell types, 3D architectures, and dynamic microenvironments. Future research in cell culture will focus on ...

The culture medium quality profoundly impacts cell growth, viability, and differentiated cell type. Stem cell researchers desire stable and consistent culture media to support the long-term expansion ...

A new study in the peer-reviewed journal Stem Cells and Development describes the development of a co-culture system of ...

A new study in the peer-reviewed journal Stem Cells and Development describes the development of a co-culture system of neural organoids generated from human induced pluripotent stem cells (iPSCs) ...