Researchers have identified a specific neural circuit and neuropeptide responsible for relaying the sensation of a pleasant touch from the skin to the brain.
Study sheds light on the human ability to understand how an object moves inside a container, revealing how different kinds of information can be conveyed via the sense of touch.
A gene commonly associated with the sense of touch may also play an important role in the sense of smell, researchers report.
Researchers have revealed the 3d structure of the Flycatcher1 protein channel which enables the Venus flytrap to close in response to prey. The findings shed light on how other mechanosensitive ion channels may operate in other plants, bacteria, and the human body.
Study provides a new understanding of the neuroscience mechanisms that make some parts of the body so sensitive to touch.
Using minimally invasive brain implants, researchers evoked the sense of touch in patients who had lost tactile sensations. The technique could be used to restore tactile sensations to those with paralysis and neuropathy.
Study points to the evolutionary and developmental similarities between sensory cells in the inner ear and skin.
Combining deep learning algorithms with robotic engineering, researchers have developed a new robot able to combine vision and touch.
Adding a BCI that evokes tactile sensations makes it easier for users to manipulate and use robotic arm prosthetics.
Sensory neurons in the fingertips are able to detect tactile stimuli at the scale of a single fingerprint ridge.
Study identifies specific neurons that help activate sensory processing in nearby nerve cells. The findings suggest ways the brain integrates signals essential for tactile perception and learning.
Using hydroxy-α-sanshoo, a bioactive compound of Szechuan pepper, researchers gain new insight into how the brain detects and perceives touch.
