How do blood vessels stay strong, flexible, and responsive to the body's changing need for oxygen and nutrients? The answer lies not only in biology—but also in physics. Researchers at Åbo Akademi ...

Many people think heart disease appears suddenly, but in reality it often develops slowly over many years. One of the most ...

Researchers at the University of California San Diego have uncovered how a single protein triggers two opposite responses in blood vessels—one inflammatory and one protective. This protein, a ...

A study in The American Journal of Pathology shows that lab-grown human skin organoids can form complex self-organizing microvascular networks similar to those in native human skin. This figure ...

A new scanner can provide three-dimensional (3D) photoacoustic images of millimeter-scale veins and arteries in seconds. The scanner, developed by researchers at University College London (UCL), ...

For many years, doctors have believed that most brain hemorrhages begin when blood vessels become weak, damaged, or break apart. Conditions such as high blood pressure, aging, and diseases affecting ...

Some blood clots form in blood vessels just beneath the skin’s surface, causing inflammation that a person can see and feel. However, the most serious clots occur in veins deep inside the body, ...