New research from Professor Guillermo Ameer’s team shows how a shape change of a cell’s nucleus can trigger regenerative signals and improve implant performance.

For decades, above-the-knee amputees have had to live with stiff, uncomfortable prosthetics that felt more like rigid tools ...

In vivo, the electreted composite membrane remarkably facilitated bone regeneration through persistent endogenous electrical stimulation. These findings suggest that the electreted sandwich-like ...

A new documentary brings early human history to life with a "scientifically accurate" collection of hyper-real 3D models.

Knee pain is more than just discomfort–it can slowly rob individuals of their freedom, confidence, and joy in everyday ...

One might think the work would wear on Lin, who is a father himself, but instead he’s filled with wonder at how the body can ...

Fujitsu aims to expand use of its high-precision skeleton recognition AI technology beyond the sports industry into areas such as workload analysis in manufacturing, early disease detection in ...

In action prediction (early action recognition), the goal is to predict the class label of an ongoing action using its observed part so far. In this paper, we focus on online action prediction in ...

Mechanisms by which sialylated milk oligosaccharides impact bone biology in a gnotobiotic mouse model of infant undernutrition ...

In 2010, scientists found the first evidence of another hominin subspecies, known as the Danisovans. Now, they’ve identified ...

Scientists 3D-print human femur with real bone strength, offering low-cost solutions for surgery, research, and future bone regeneration.

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.