Most cells in the human body exist in complex three-dimensional environments, yet they are still commonly studied on flat plastic dishes. These two-dimensional cultures distort cell behavior, limiting ...

The cochlea is the spiral-shaped structure within the inner ear responsible for our sense of hearing. To fully understand ...

Researchers developed a microfluidic chip with 3D-printed microstructures that moves droplets precisely, captures cells efficiently, and quickly forms cell spheroids for improved lab-grown tissue ...

Phenotypic 3D cell models incorporate tissue architectures and extracellular matrices to recapitulate the complexity of the ...

Custom polymer structures can now be 3D printed inside living cells using laser-based fabrication, opening paths to intracellular sensors, cell tracking tags, and embedded microlasers.

You don't want to miss this! To permanently access this eBook for free, fill out the short form below. Explore the transformative role of three-dimensional (3D) cell models, like organoids and ...

Most potential oncology drugs fail during the drug development pipeline, even when there has been promising data for their efficacy during the in vitro stage. This makes it vital to identify in vitro ...

3D cell cultures are no longer a futuristic idea. They’re already reshaping how we study diseases like cancer, offering more realistic models of how cells behave in the body. But despite their ...

Before cells can divide by mitosis, they first need to replicate all of their chromosomes, so that each of the daughter cells can receive a full set of genetic material. Scientists have until now ...

A new technical paper titled “Enabling static random-access memory cell scaling with monolithic 3D integration of 2D field-effect transistors” was published by researchers at The Pennsylvania State ...