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

Scientists have created miniorgans from cells floating in the fluid that surrounds a fetus in the womb – an advance they believe could open up new areas of prenatal medicine. Miniorgans, or “ ...

Automated cell analysis in biological fluids encompasses technologies for rapid quantification and characterisation of cells in specimens such as cerebrospinal, pleural, peritoneal and synovial fluids ...

Living cells cool much slower than our current understanding of heat conduction can explain, according to new research from the University of Tokyo. Researchers have used two techniques—high-speed ...

As a fetus develops, its body is bathed in amniotic fluid: a warm, salty soup of nutrients, hormones, and antibodies produced by its mother. And into that fluid, a fetus is constantly sloughing off or ...

Researchers at the University of Colorado Anschutz Medical Campus have discovered that amniotic fluid stem cells can be safely collected from vaginal fluid after childbirth rather than relying on more ...

Amniotic fluid is chock full of dead cells. And although the cells, which are shed from the developing fetus, have been used in prenatal diagnostics for over four decades, the composition of the tiny ...

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 ...

Scientists at Oregon Health and Science University have discovered that cells generate steady internal fluid currents, dubbed “cytoplasmic tradewinds,” that actively push proteins toward the leading ...

Sperm cells move through fluids that should stop them almost instantly, yet new research suggests they succeed by exploiting unusual properties of active living matter.