Microscopic images of human tissue are a cornerstone of biomedical research and clinical diagnostics. Yet despite their ...

Hidden inside every organ, microscopic fibers form a scaffolding that quietly shapes how we move, think, and heal. For the first time, scientists have produced detailed maps of these fiber webs across ...

A cutting-edge laboratory technique that turns human stem cells into brain-like tissue now recapitulates human brain development more accurately than ever, according to a new study from Case Western ...

Looking ahead: Every year, tens of thousands of Americans receive organ transplants, yet demand still outstrips supply. Now, a research team at Carnegie Mellon University believes the way out of that ...

Aging is closely linked with cellular senescence which is a multi-faceted cell fate that arrests cell proliferation and activates the synthesis and secretion of numerous cytokines, chemokines, growth ...

A new light-controlled hydrogel developed at CU Boulder mimics the movement and flexibility of real tissue, giving scientists ...

For decades, lab-grown cells have been studied in materials that don't reflect the softness and flexibility of human tissue.

Tissue-mimicking materials (TMMs) are fundamental in the field of medical imaging, where they serve as crucial phantoms for calibration, quality assurance, ...