The large nerve cord that runs along each octopus arm is divided into segments, allowing for precise movement control and forming a spatial map of its suckers. Octopus arms exhibit remarkable ...

Neuroscientists have identified that the receptor IL-1R1 plays a critical role in enabling neurons to directly communicate with the immune system. The new study provides the most detailed mapping of ...

A comprehensive study mapped neuronal IL-1R1 (nIL-1R1) expression in the mouse brain, highlighting its role in sensory ...

Interleukin-1 (IL-1) is a key molecule involved in inflammation and plays an important role in both healthy and diseased ...

Researchers claim that octopuses can control their arms with a segmented nervous system. The team from the University of ...

Octopus arms have segmented nerve systems, controlling movement and sensory input. Each segment enables independent control.

Chicago, United States - January 15, 2025 New research from the University of Chicago has uncovered how octopuses control ...

New research from the University of Chicago revealed that the nervous system circuitry that controls arm movement in ...

Evenflo unveiled SensorySoothe™ at CES 2025, a groundbreaking app-connected feature integrated into car seats and travel ...

SensorySoothe just might be the ultimate anti-" sad beige baby " tech.

AAC's acoustic solutions extend across a variety of smart devices, including smartphones, foldable phones, XR headsets, and ...

AAC Technologies, a pioneer in sensory experience, showcased its industry leadership by introducing a full spectrum of ...