An experimental inhibitor regrew cartilage in aged mice, opening up an alternative to arthritis and prosthetics.

Blood vessels twist, branch, narrow, and balloon in ways that dramatically affect how blood flows — but most lab models have long treated them like straight pipes. Researchers at Texas A&M have now ...

A study shows that polarons can host stable atomic distortion patterns, reshaping how charge and energy move in materials ...

An advance from Monash University could pave the way for faster, smaller, and more energy-efficient lasers and other light-based technologies. Engineers have developed a new type of perovskite ...

The potential of microrobots is enormous. These miniature objects can be designed to carry out actions within the body, such as sensing biomarkers, manipulating objects like blood clots, or delivering ...

MIT researchers have created subcellular ‘circulatronic’ brain implants that can be administered via injection and self-implant to target a variety of ailments directly.

Scientists have revealed the secret to the structural integrity of tiny particles that transport cargo from cell to cell through blood vessels and bodily fluids: special proteins that keep their ...

Human blood vessels are anything but simple. They bend, branch, narrow, and widen, creating complex pathways that affect how blood moves through the ...

Neither plant, nor animal, nor fungus: science finally discovers what these 8-metre giants were - ...

Explore the vital role of bone marrow stem cells. Learn how they drive bone remodeling, immunity, and skeletal health in this complete guide.

Explore the innovative concept of bioengineered lymph nodes as a promising solution for lymphedema after cancer surgery.

Unlike the alternative meat products that are already out there - vegetarian products that imitate meat - cultivated meat is ...