A new in-plate, zero-disruption design enables reproducible organoid culture, downstream processing, and high-resolution imaging in a single 3D cell culture plate MONMOUTH JUNCTION, N.J., Feb. 9, 2026 ...

Advanced 3D cell models recreate the complexity of human tissues, enabling researchers to examine tumor progression, probe neurological disorders, and assess therapeutic candidates. By capturing the ...

CompagOS has produced biologically reproducible Bon3OID™ bone models using 3D bioprinting. Find out more in the interview!

Over the past two decades, researchers have learned that DNA inside the cell nucleus naturally folds into a network of ...

Traditionally, scientists have used 2D cell cultures as in vitro models in drug screening studies due to their simplicity and scalability. However, 2D cell models do not recapitulate the complexity of ...

In a major leap forward for genetic and biomedical research, two scientists at the University of Missouri have developed a powerful new artificial intelligence tool that can predict the 3D shape of ...

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 ...

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 ...

This month, our AM Focus is shining a light on the medical sector, where additive manufacturing technologies have been broadly adopted.

The cochlea is the spiral-shaped structure within the inner ear responsible for our sense of hearing. To fully understand hearing functions and open the door to new hearing loss treatments, scientists ...