RIT researchers solve multiple tissue engineering challenges by developing a novel hydrogel to host human cells and a device to 3D print bioinks safely.

Water makes up around 60% of the human body. More than half of this water sloshes around inside the cells that make up organs and tissues. Much of the remaining water flows in the nooks and crannies ...

The Trade-off Between Physiological Authenticity and Experimental Convenience: Navigating the Cellular Foundation of ...

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 ...

Immune responses rely on the efficient movement of immune cells within the complex and geometrically unpredictable three-dimensional tissues that make up our bodies. Recent research by the Sixt group ...

A new study may change the way scientists think about the distance traveled by tiny bubbles carrying signals between cells ...

Cancer-killing T cells have been programmed to have two levels of specificity. First, the T cells have been equipped with a receptor sensitive to a protein that is found only in central nervous system ...

A new electronic implant system can help lab-grown pancreatic cells mature and function properly, potentially providing a ...

A dual-action nanomaterial uses cancer’s own chemistry to destroy tumors while leaving healthy cells unharmed.

Scientists are looking for answers about how these confounding trips, known as metastases, occur throughout the human body Illustration of a human cancer cell Amber Dance, Knowable Magazine Back in ...