The study shows that fat tissue, when processed and cultured in a specific way, can self-organize into structures resembling ...

Scientists at Duke-NUS Medical School have developed two powerful computational tools that could transform how researchers ...

Multipotent dental stem cells can give rise to various cell types and show potential for treating injuries, diabetes, and heart disease in early clinical trials.

Discover how human adipose tissue can be transformed into functional organoids representing all three germ layers—mesoderm, ...

Regenerative medicine combines tissue engineering and cell therapies to repair or replace damaged human tissues and organs. Key applications include treating osteoarthritis with mesenchymal stem cells ...

Scientists have uncovered a surprisingly simple “tissue code”: five rules that choreograph when, where, and how cells divide, move, and die, allowing organs like the colon to remain flawlessly ...

Like a phoenix rising from the ashes, our skin tissue—and in fact many types of epithelial tissue that lines and covers the ...

Dissociating tissues into single cells is a core laboratory technique and vital for widely used applications such as next-generation sequencing or flow cytometry. Scientists who employ tissue ...

These images use color markers—blue for nuclei, red for cell membranes, and green for fluid—to show that spaces between cells shrink as fluid moves out during tissue compression, from left to right ...

Long before a liver tumor appears, a high-fat diet can push liver cells into a risky survival mode. That is the central ...