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.

This correspondence between brain state and brain responsiveness (statedependent responses) is outlined at different scales from the cellular and circuit level, to the mesoscale and macroscale level.

Brain organoids are revolutionising research, but their growing complexity raises unsettling ethical questions.

Senitron Corporation announced the release of a structured framework designed to guide retailers in the development of ...

An Exploration of the Paths to Integrating Wu Opera into Moral Education in Primary School within the Framework Integration In response to the current problems in moral education in primary schools, ...

Occam’s razor is the principle that, all else being equal, simpler explanations should be preferred over more complex ones. This principle is thought to guide human decision-making, but the nature of ...

And when instinct disguises itself as intuition, it can lead us to misread situations, damage relationships, and make choices ...

Why would one of the most sophisticated humanoid robots in the world want to get up from the floor in a way no human ever would? The answer lies deep in the interaction between sensor limitations, ...

General anesthesia is supposed to switch us off, yet patients often report emerging from the void with the eerie sense that ...

What's the difference between sensory overload and sensory seeking, and how can you manage each? Discover key signs, triggers ...

The Akron-Canton Airport has revamped its sensory room, designed in partnership with the Wolff & Phan Autism Center.