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 ...

In a recent study, Associate Professor Makoto Ikeya (Department of Clinical Application) and his team of researchers successfully established a method to generate jawbone-like organoids (mini-organs) ...

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.

The powerful synchrotron X-rays produced by the CLS at the University of Saskatchewan enabled the researchers to create a detailed 3D model of both the T. rex bone and the soft tissue structures ...

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

Crown Bioscience developed a 3D bone marrow niche (BMN) model to advance preclinical drug screening for hematological malignancies such as acute myeloid leukemia (AML) and multiple myeloma (MM ...

Blood vessel structures found preserved in a famous T rex fossil are helping scientists understand how dinosaurs healed from ...

Exciting new research is investigating how boobies (birds of the genus Sula) may be able to reduce the potentially lethal ...

An immersive new exhibition at the Intrepid Museum in New York City spotlights the science and technology behind the ...

Inspired by how nature blends toughness and flexibility, such as the rigid structure of bone surrounded by pliable cartilage, ...

Replacing defective microglia can halt ALSP—a fatal neurodegenerative disease—in mice and humans, offering hope for broader brain therapies.