Typically, scientists study how the brain communicates with adipose tissue through the sympathetic nervous system and how the adipose tissue replies through circulating chemical signals.

For over half a billion years, evolution has sculpted the nervous systems of bilaterian animals, equipping them with remarkable capabilities to process information, coordinate movements, and respond ...

Samantha Vlcek does not work for, consult, own shares in or receive funding from any company or organization that would benefit from this article, and has disclosed no relevant affiliations beyond ...

Researchers have developed a way of bioprinting tissues that change shape as a result of cell-generated forces, in the same way that it happens in biological tissues during organ development.

Market Snapshot Stock-market investors are getting nervous about this bond-market move that’s only happened twice in over 40 years Only twice since the early 1980s has the 10-year yield jumped ...

The large nerve cord running down each octopus arm is separated into segments, giving it precise control over movements and creating a spatial map of its suckers. Octopus arms move with incredible ...

New research from the University of Chicago revealed that the nervous system circuitry that controls arm movement in octopuses is segmented, giving these extraordinary creatures precise control ...

Octopus arms have segmented nervous systems to power extraordinary movements The large nerve cord running down each octopus arm is separated into segments, giving it precise control over movements ...

Redkar is nervous that her political content won't play as well on other platforms like Instagram Reels, and says she'll also miss TikTok's video editing features. 'It's going to be messy' "I ...

The brain—the primary organ of the central nervous system—plays a key role ... brain can only be understood by studying actual brain tissue. For instance, when the brain is removed from ...