Scientists have created a more efficient and controlled way to produce lab-grown inner ear hair cells than current methods ...

Researchers from the Max Planck Institute of Immunobiology and Epigenetics in Freiburg and ETH Zurich have created the first integrated map detailing the metabolic and molecular changes in human blood ...

A new study details an efficient and scalable method to generate human inner ear hair-like cells in the lab, potentially offering a new tool for hearing loss research.

Researchers from the Max Planck Institute of Immunobiology and Epigenetics in Freiburg and ETH Zürich have created the first ...

In a comprehensive Genomic Press perspective (peer-reviewed review) article, an international team of neuroscientists has ...

The cargo craft Tianzhou-9 successfully docked at the rear docking port of Tianhe, the core module of China's ...

While humans can regularly replace certain cells, like those in our blood and gut, we cannot naturally regrow most other parts of the body. For example, when the tiny sensory hair cells in our inner ...

Zebrafish can regenerate sensory hair cells that humans permanently lose, like those in the inner ear linked to hearing and ...

Scientists have successfully grown over 400 different types of nerve cells from stem cells in the lab—a groundbreaking step toward replicating the complexity of the human brain.

The discovery of SRCs is not just a new therapy. It is a new way of thinking about life itself. Stronger stem cells mean ...

The University of Sheffield is set to conduct the first-ever human trial using stem cell therapy, Rincell-1, to reverse sensorineural hearing loss.

Researchers in the UK have received approval to conduct the first ever human trials for a stem cell treatment to reverse ...