Studying why heart cells are less likely to become cancerous can provide clues to improving heart regeneration and treatments ...

Background—Currently, the reporting and archiving of echocardiographic data suffer from the difficulty of representing heart motion on printable 2-dimensional (2D) media. Methods and Results—We studi ...

Understanding cardiac arrhythmic mechanisms and developing new strategies to control and terminate them using computer simulations requires realistic physiological cell models with anatomically ...

The heart is the body's hardest-working muscle. Whether you're awake or asleep, or exercising or resting, your heart is always at work. It pumps blood through arteries to deliver oxygen to organs ...

A group of North Texas doctors and scientists printed part of a human femur—the longest and strongest bone in the body—that mimics the strength, flexibility and overall mechanics of a real ...

Current human genetic evidence does not support an adverse effect of lower FXI levels on heart failure risk or cardiovascular function. Further studies examining the effect of FXI levels on cardiac ...

News North Texas scientists 3D-print part of human femur as strong as real bone Their low-cost technique using biodegradable material may one day help regrow bones.