To work toward getting around this issue, researchers used parabolic flights to simulate microgravity conditions, then 3D ...

Cancer often infiltrates a person’s life long before anyone knows it. By the time symptoms arise and an examination indicates the worst, the disease has often been growing for months and sometimes ...

In the world of medical advancements, 3D-printed organs have made a significant stride. Latest trials have demonstrated that these bioengineered organs can maintain their function for up to six months ...

Scientists have been fantasizing about the potential of precise 3D bioprinting for years. Just imagine, for example, if doctors could trial therapies on an exact replica of a kidney disease patient’s ...

Stanford bioengineer Mark Skylar-Scott writes about what he’s working on, how it could advance human health and well-being, and why universities are critical players in the nation’s innovation ...

What just happened? Another technology that's long been the thing of sci-fi has taken its first steps to becoming a reality: 3D bioprinting complex human organs. The concept of being able to 3D-print ...

Headquartered in Vilnius, the capital of Lithuania, Vital3D employs a patented laser-based bioprinting platform that accurately expels living cells and biomaterials to replicate the intricate tissue ...

This study presents a multi-lens ultrasound system that offers tenfold higher resolution for whole-organ imaging, improving microvascular network visualization.

It is now possible to obtain three-dimensional, high-resolution images of enzyme activity in tissue samples or whole organs—thanks to probe molecules that anchor fluorescent dyes within tissue as they ...

ETH Zurich scientists 3D print muscle tissue in simulated zero gravity, paving the way for growing human tissue in space.

Mimicking the way experienced human observers track growth over time, 3D-NOD integrates novel labeling, registration, and data augmentation strategies to boost sensitivity and accuracy. Tested across ...