Scientists have created a 'heavy' mouse, the world's first animal enriched with heavy but non-radioactive isotopes - enabling them to capture in unprecedented detail the molecular structure of natural ...

In this new series, we take an up-close look at FIU research through a collection of awe-inspiring images spotlighting our scientists' fieldwork and latest discoveries. Bone cells live in bone tissue ...

Scientists have grown living bone in the laboratory for the first time – and it could help bomb blast victims. A team from the Universities of Glasgow, Strathclyde, the West of Scotland and Galway ...

Studying the effects of drugs and disease in humans can be tricky business, but scientists are making great inroads in developing lab-grown versions of organs and body parts that offer powerful ...

Transplants of neurotrophin-producing autologous fibroblasts promote recovery of treadmill stepping in the acute, sub-chronic, and chronic spinal cat Samdani, A. F ...

Researchers have successfully grown cartilage-bone grafts in the lab that can be used to repair damaged joints such as the jaw. Although reconstructive surgery is available to treat many joint ...

From vampire legends to lab-grown tissue, the idea that young blood can reverse aging is no longer pure myth. A new study shows that proteins secreted by bone marrow cells, triggered by young blood, ...

The molecular 'fingerprint' for tissue taken from the first isotope-enriched mouse has huge potential for scientific breakthroughs, as well as improved medical implants. Earliest research based on the ...