Feeling of Wetness Plays a Role in Many Aspects of Daily Life

by Bidita Debnath on  October 11, 2014 at 11:57 PM Research News   - G J E 4
A new study shows how human sensitivity to wetness plays a role in many aspects of daily life and feeling that something is wet is quite a feat because our skin does not have receptors that sense wetness.
 Feeling of Wetness Plays a Role in Many Aspects of Daily Life
Feeling of Wetness Plays a Role in Many Aspects of Daily Life

According to researchers, the concept of wetness, in fact, may be more of a "perceptual illusion" that our brain evokes based on our prior experiences with stimuli that we have learned are wet.

Researchers at Loughborough University and Oxylane Research proposed that wetness perception is intertwined with our ability to sense cold temperature and tactile sensations such as pressure and texture. They also observed the role of A-nerve fibers-sensory nerves that carry temperature and tactile information from the skin to the brain-and the effect of reduced nerve activity on wetness perception.

The scientists also hypothesized that because hairy skin is more sensitive to thermal stimuli, it would be more perceptive to wetness than glabrous skin (e.g., palms of the hands, soles of the feet), which is more sensitive to tactile stimuli.

Davide Filingeri et al. exposed 13 healthy male college students to warm, neutral and cold wet stimuli. They tested sites on the subjects' forearms (hairy skin) and fingertips (glabrous skin). The researchers also performed the wet stimulus test with and without a nerve block. The nerve block was achieved by using an inflatable compression (blood pressure) cuff to attain enough pressure to dampen A-nerve sensitivity.

They found that wet perception increased as temperature decreased, meaning subjects were much more likely to sense cold wet stimuli than warm or neutral wet stimuli. The research team also found that the subjects were less sensitive to wetness when the A-nerve activity was blocked and that hairy skin is more sensitive to wetness than glabrous skin. These results contribute to the understanding of how humans interpret wetness and present a new model for how the brain processes this sensation.

The study was published in the Journal of Neurophysiology.

Source: ANI

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