After photographs showed President Donald Trump with swollen ankles and bruised hands, the White House revealed he has ...

Study insights could improve current understanding of neurodegenerative diseases as well as interpretations of brain scans.

The brain is one of the body’s most energy-demanding organs, accounting for 2 percent of the body’s weight but consuming 20 ...

All day long, our brains carry out complicated and energy-intensive tasks such as remembering, solving problems, and making decisions.

To simulate blood flow inside brain aneurysms, researchers from Japan have developed a computational method that combines 4D flow MRI, computational fluid dynamics, and data assimilation, which ...

Bioluminescent imaging is helping researchers better understand the effectiveness of tissue regeneration enhancers delivered to injured heart tissue by different adeno-associated virus vectors.

Researchers at Stanford have developed a new technology for removing blood clots that is more than twice as effective as current techniques. It could significantly improve success rates in ...

In the last years, illustrative methods have found their way into flow visualization since they communicate difficult information in a comprehensible way. This is of great benefit especially in ...

Poor circulation, or peripheral artery disease (PAD), typically results from plaque buildup in the arteries. Over time, this buildup can cause the arteries to harden or narrow, disrupting the flow of ...

Cardiac muscle tissue, or myocardium, is a type of muscle tissue that forms the heart. It contracts and releases involuntarily and keeps the heart pumping blood around the body.

Understanding how to regulate and improve blood flow to the heart is essential for developing new treatments and improving patient outcomes.

E-Ca coupling is a process that integrates electrical and calcium signaling in brain capillaries to ensure precise blood flow delivery to active neurons. Electrical signals enhance calcium entry ...