The challenges of connecting molecular changes to tissue structure and highlights the potential of multifractal frameworks to quantify complex biological patterns ...

How does a tiny cluster of cells become an embryo with a head, trunk, and tail? And how do thousands of genes coordinate this development? A new imaging method makes it possible to visualize the ...

A team of scientists has identified an unexpected embryonic "starting point" for several brown-fat depots: a small cell niche around the dorsal aorta. Using a combination of time-controlled genetic ...

Garlic compounds prolong life and preserve memory and strength in mice, revealing a potential ally against aging.

Exploring whether stem cells can help regenerate damaged heart tissue. This video looks at the science, the potential benefits, and what current research says about repairing the heart with stem cell ...

From lab-grown mini-brains to neck surgery, researchers explore how the glymphatic system can help in treating diseases. Read more at straitstimes.com. Read more at straitstimes.com.

Using mouse incisor models, researchers reveal how coordinated cell movements form crack-resistant enamel in teeth ...

Nanogel gives stem cells room to breathe Nanogel integrated spheroids increase cell retention and repair injured swallowing muscles. (Nanowerk News) Swallowing is a ...

Two women suffering from severe Asherman's syndrome have delivered babies after undergoing treatment using umbilical cord-derived mesenchymal stem cells at a private hospital.

Younger colorectal cancer patients have abnormally stiff colon tissue that promotes tumor growth, pointing to biomechanical forces as a key factor in early-onset disease.

Freezing complex tissue like the brain has long caused irreversible damage. New research restored function in frozen mouse brain tissue and bringing a futuristic possibility closer to reality.

Mutations that cause spinal muscular atrophy (SMA) may lead to abnormalities in the development of cells in the spinal cord, a study found.