THAT serous fluids from patients suspected of having malignant tumors may yield information of considerable diagnostic value has been established for many years, and in 1917 Mandelbaum 1 devised a ...

The special abilities of embryonic stem cells can today be used in multiple "grown-up" cells (e.g. skin and hair cells). This is done by reprogramming the cells and converting them to "induced ...

High hopes rest on stem cells: one day, they may be used to treat many diseases. To date, embryos are the main source of these cells, but this raises ethical problems. Scientists have now managed to ...

Amniotic Fluid-Derived Stem Cells Are Highly Amenable to Reprogramming Amniotic fluid represents an abundant source of multipotent stem cells, which are currently being explored, as a versatile cell ...

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 ...

Animal cells behave like fluid-filled sponges in response to being mechanically deformed according to new research. Animal cells behave like fluid-filled sponges in response to being mechanically ...

Automated cell counting in body fluids is revolutionising diagnostic pathways by replacing traditional manual methods with robust, high-throughput platforms. This approach enhances accuracy and ...

Before being tested in animals or humans, most cancer drugs are evaluated in tumor cells grown in a lab dish. However, in recent years, there has been a growing realization that the environment in ...

Based on cells’ ability to respond to physical stimuli, a team of researchers hypothesized that extracellular fluid viscosity (which varies under physiological and pathological conditions, such as ...

Amniotic fluid, the protective liquid surrounding an unborn baby, is discarded as medical waste during caesarean section deliveries. However, there is increasing evidence that this fluid is a source ...