Biomolecular condensates were long believed to be simple liquid blobs inside cells. Researchers have now uncovered that some are actually supported by fine protein filaments forming an internal ...

A new bioengineered neuronal circuit board "BioConNet" allows scientists to artificially engineer human brain-like wiring at ...

The Kiel University scientist discusses how advanced materials processing is shaping medical manufacturing and improving drug performance.

Learn how animal-free 3D systems can reduce variability in drug discovery, leading to better human biology representation.

Innovations in imaging and genetic engineering are coming together to probe the biophysics of cytoplasm inside living animals.

MHH doctoral student receives research grant to develop more sustainable methods for cultivating stem cells.

In this interview, Dr. Marsh Durban explores how innovations such as controlled seeding and size‑selection are enabling researchers to generate uniform, assay‑ready organoids at scale.

A new type of tissue model that more accurately mimics the architecture of the liver could help develop drugs to treat MASLD.

Researchers from IIT Bombay have developed a technique for efficient recovery of T-cells from 3D scaffolds. The research allows for improved cancer therapies.

The human kidney filters about a cup of blood every minute, removing waste, excess fluid, and toxins from it, while also regulating blood pressure, balancing important electrolytes, activating Vitamin ...

Whether for drug screening or toxicity testing, stem cell-based 3D tissue models are key to biomedical research. However, producing cell aggregates in bioreactors is highly complex and cost-intensive.

This eBook demonstrates how integrated imaging cytometry technology streamlines cellular analysis by combining plate reading ...