Effects of stimulus temperature and skin hydration levels on wetness erception at the Underarm
Effects of stimulus temperature and skin hydration levels on wetness erception at the Underarm
BACKGROUND: Experiencing wetness on the skin because of sweating or contact with fluids can induce thermal discomfort. Millions of people apply antiperspirant deodorant products to the underarm to minimise this negative experience. However, the mechanisms underpinning wetness perception at the underarm and the influence of underlying stratum corneum hydration remain under investigation. We aimed to evaluate the role of stimulus temperature and skin hydration levels on wetness perception at the underarm in young participants.
MATERIALS AND METHODS: Ten healthy participants (5 M/5 F; 29 ± 7 years) underwent a quantitative sensory test during which they reported the perceived magnitude of wetness perception from a short-duration static application of a cold-wet (i.e., 5°C below local skin temperature), neutral-wet (i.e., equal to local skin temperature) and warm-wet (i.e., 5°C above local skin temperature) stimuli. Wetness perception was assessed on a 100-mm visual analogue scale (0 = dry; 100 = completely wet), with a repeated measures design exploring the effects of overhydration (+21 %) and dehydration (-40 %) of the underarm's skin.RESULTS: Our results indicated a higher wetness perception (p = 0.012) during the cold-wet (40 mm, 95 % CI: 25, 56) than during the warm-wet (25 mm, 95 % CI: 12, 39), and neutral-wet stimuli (24 mm, 95 % CI: 7, 40). Furthermore, overhydration of the underarm' stratum corneum can lead to an increase in wetness perceptions upon contact with cold-wet stimuli only (mean increase: 20 mm, 95 % CI: 3, 36; p = 0.024; corresponding to 20 % increase).
CONCLUSION: Our findings provide novel fundamental insights into the underarm's perceptual responses to wetness, which could inform understanding of the determinants of wet feel associated with periods of sweating and the application of antiperspirant products.
axilla, overhydration, skin, thermal sensation, wetness perception
e70170
Ward, Jade
46e85414-ec11-42f9-bfec-b0f8b85b7abf
Verucchi, Emilio
55271d7d-f0af-4bd5-85e3-f5fb9891f8dd
Swaile, Dave
d1383b38-9c3c-4d66-97a4-eb47cfb84809
Parker, Katie
19526a9e-77a9-4623-9183-b4d7716bd1e3
Worsley, Peter R
6d33aee3-ef43-468d-aef6-86d190de6756
Filingeri, Davide
42502a34-e7e6-4b49-b304-ce2ae0bf7b24
1 February 2025
Ward, Jade
46e85414-ec11-42f9-bfec-b0f8b85b7abf
Verucchi, Emilio
55271d7d-f0af-4bd5-85e3-f5fb9891f8dd
Swaile, Dave
d1383b38-9c3c-4d66-97a4-eb47cfb84809
Parker, Katie
19526a9e-77a9-4623-9183-b4d7716bd1e3
Worsley, Peter R
6d33aee3-ef43-468d-aef6-86d190de6756
Filingeri, Davide
42502a34-e7e6-4b49-b304-ce2ae0bf7b24
Ward, Jade, Verucchi, Emilio, Swaile, Dave, Parker, Katie, Worsley, Peter R and Filingeri, Davide
(2025)
Effects of stimulus temperature and skin hydration levels on wetness erception at the Underarm.
Skin Research and Technology, 31 (2-5), , [e70170].
(doi:10.1111/srt.70170).
Abstract
BACKGROUND: Experiencing wetness on the skin because of sweating or contact with fluids can induce thermal discomfort. Millions of people apply antiperspirant deodorant products to the underarm to minimise this negative experience. However, the mechanisms underpinning wetness perception at the underarm and the influence of underlying stratum corneum hydration remain under investigation. We aimed to evaluate the role of stimulus temperature and skin hydration levels on wetness perception at the underarm in young participants.
MATERIALS AND METHODS: Ten healthy participants (5 M/5 F; 29 ± 7 years) underwent a quantitative sensory test during which they reported the perceived magnitude of wetness perception from a short-duration static application of a cold-wet (i.e., 5°C below local skin temperature), neutral-wet (i.e., equal to local skin temperature) and warm-wet (i.e., 5°C above local skin temperature) stimuli. Wetness perception was assessed on a 100-mm visual analogue scale (0 = dry; 100 = completely wet), with a repeated measures design exploring the effects of overhydration (+21 %) and dehydration (-40 %) of the underarm's skin.RESULTS: Our results indicated a higher wetness perception (p = 0.012) during the cold-wet (40 mm, 95 % CI: 25, 56) than during the warm-wet (25 mm, 95 % CI: 12, 39), and neutral-wet stimuli (24 mm, 95 % CI: 7, 40). Furthermore, overhydration of the underarm' stratum corneum can lead to an increase in wetness perceptions upon contact with cold-wet stimuli only (mean increase: 20 mm, 95 % CI: 3, 36; p = 0.024; corresponding to 20 % increase).
CONCLUSION: Our findings provide novel fundamental insights into the underarm's perceptual responses to wetness, which could inform understanding of the determinants of wet feel associated with periods of sweating and the application of antiperspirant products.
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2025_WetnessHydrationUnderarm_SRT
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Published date: 1 February 2025
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© 2025 The Author(s). Skin Research and Technology published by John Wiley & Sons Ltd.
Keywords:
axilla, overhydration, skin, thermal sensation, wetness perception
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Local EPrints ID: 502748
URI: http://eprints.soton.ac.uk/id/eprint/502748
ISSN: 0909-752X
PURE UUID: b3de4478-78ba-4470-a16b-32cac72ef319
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Date deposited: 07 Jul 2025 17:00
Last modified: 08 Jul 2025 02:08
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Author:
Jade Ward
Author:
Emilio Verucchi
Author:
Dave Swaile
Author:
Katie Parker
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