This protective layer allows signals to pass between cells incredibly quickly. But what happens when this layer goes missing ...

From small ions to large molecules, cellular gates control what can pass in and out of cells. But how one such gate, called ...

A new study describes a key molecular mechanism that explains how cells exchange information through extracellular vesicles ...

Ohio State scientists develop a novel method (LEVA) to study cell communication through extracellular vesicles.

The researchers discovered that the missing piece of myelin resulted in slower and less consistent signal transmission to the thalamus. "We had anticipated this, because myelin is known to be ...

Contrary to popular belief, the generation that grew up with cell phones in their hands (at teens and young adults, at least) ...

Toms River Regional is looking to codify its efforts to keep cell phones out of students' hands for most of the school day.

Patients who receive T-cell redirecting therapies are typically hospitalized for several days after treatment to watch for ...

New research reveals that even a small loss of myelin—the protective coating around neurons—can severely disrupt how the brain sends and interprets sensory information.

Squamous cell carcinoma treatment varies by stage, involving surgery, radiation, and systemic therapies based on cancer ...

A new study describes a key molecular mechanism that explains how cells exchange information through extracellular vesicles (EVs), small particles with great therapeutic potential.