People communicate with each other, sometimes face to face, sometimes with a text message or phone call. Cells also ...

Now, MIT engineers have found that this "intercellular" fluid plays a major role in how tissues respond when squeezed, pressed, or physically deformed. Their findings could help scientists understand ...

Researchers at Helmholtz Munich and the Technical University of Munich (TUM) have developed Nicheformer, the first large-scale foundation model that integrates single-cell analysis with spatial ...

Scientists at Duke-NUS Medical School have developed two powerful computational tools that could transform how researchers study the "conversations" between cells inside the body. The tools, called ...

Doctors and scientists have long relied on microscopes to study human tissue and diagnose disease. But today's medical research produces far more information than the human eye alone can handle, ...

Embryonic development is one of the most dynamic biological processes in nature. Cells and tissues organize and reorganize ...

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 ...

In developing hearts, cells shuffle around, bumping into each other to find their place, and the stakes are high: pairing with the wrong cell could mean the difference between a beating heart and one ...

Barrier organs that form boundaries between the body and the outside environment, such as the lungs, skin, and intestines, face a difficult balancing act. They must respond quickly to threats such as ...

Researchers at Rice University developed a cytokine factory patch that continuously releases healing proteins into wounds, ...