Ageing reduces skin wetness sensitivity across the body
Ageing reduces skin wetness sensitivity across the body
New Findings: What is the central question of this study? Ageing impairs the skin's thermal and tactile sensitivity: does ageing also induce loss of skin wetness sensitivity? What is the main finding and its importance? Older adults show an average 15% loss of skin wetness sensitivity, with this sensory deficit being mediated by a combination of reductions in skin's tactile sensing and hydration status. These findings increase knowledge of wetness sensing mechanisms across the lifespan. Abstract: Humans use sensory integration mechanisms to sense skin wetness based on thermal and mechanical cues. Ageing impairs the skin's thermal and tactile sensitivity, yet we lack evidence on whether wetness sensing also changes with ageing. We mapped local skin wetness and temperature sensitivity in response to cold-, neutral- and warm-wet stimuli applied to the forehead, neck, lower back, dorsal foot, index finger and thumb, in 10 Younger (22.4 ± 1.1 years) and 10 Older (58.2 ± 5.1 years) males. We measured local skin temperature and conductance (i.e., a marker of hydration status) at the tested sites, to establish the role of skin's thermal and mechanical parameters in ageing-induced changes in wetness sensing. Irrespective of body site, Older reported overall lower wetness perceptions than Younger across all wet-stimulus temperatures (mean difference: −14.6 mm; 95% CI: −4.3, −24.9; P = 0.008; ∼15% difference). When considering regional wetness sensitivity, the effect of ageing was more pronounced in response to the cold-wet stimulus over the lover back (mean difference Older vs. Younger: −36.8 mm; 95% CI: −68.4, −5.2; P = 0.014; ∼37% difference) and dorsal foot (mean difference: −37.1 mm; 95% CI: −68.7, −5.5; P = 0.013; ∼37% difference). We found no differences between age groups on overall thermal sensations (P = 0.744) nor local skin temperature (P = 0.372); however, we found that Older presented overall lower skin conductance than Younger (mean difference: −1.56 μS; 95% CI: −0.49, −2.62; P = 0.005), which corresponded to an ∼78% reduction in skin hydration. We conclude that skin wetness sensing decreases with ageing primarily due to age-induced changes in skin mechanics and tactile sensitivity.
ageing, body temperature regulation, skin, thermoreceptors, wetness
2434-2444
Wildgoose, Charlotte
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Valenza, Alessandro
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Buoite Stella, Alex
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Feka, Kaltrina
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Bianco, Antonio
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Filingeri, Davide
42502a34-e7e6-4b49-b304-ce2ae0bf7b24
December 2021
Wildgoose, Charlotte
0b6dc71d-0896-4463-9caf-e1420270f15e
Valenza, Alessandro
60b629a5-c527-4137-8efb-6670b165d319
Buoite Stella, Alex
5bcc50a8-f4a5-4182-9815-8da38d105df4
Feka, Kaltrina
659e68a7-e48d-4f86-9226-48a7a20708ef
Bianco, Antonio
2be61141-0049-4515-9f4b-14ec98be8662
Filingeri, Davide
42502a34-e7e6-4b49-b304-ce2ae0bf7b24
Wildgoose, Charlotte, Valenza, Alessandro, Buoite Stella, Alex, Feka, Kaltrina, Bianco, Antonio and Filingeri, Davide
(2021)
Ageing reduces skin wetness sensitivity across the body.
Experimental Physiology, 106 (12), .
(doi:10.1113/EP090027).
Abstract
New Findings: What is the central question of this study? Ageing impairs the skin's thermal and tactile sensitivity: does ageing also induce loss of skin wetness sensitivity? What is the main finding and its importance? Older adults show an average 15% loss of skin wetness sensitivity, with this sensory deficit being mediated by a combination of reductions in skin's tactile sensing and hydration status. These findings increase knowledge of wetness sensing mechanisms across the lifespan. Abstract: Humans use sensory integration mechanisms to sense skin wetness based on thermal and mechanical cues. Ageing impairs the skin's thermal and tactile sensitivity, yet we lack evidence on whether wetness sensing also changes with ageing. We mapped local skin wetness and temperature sensitivity in response to cold-, neutral- and warm-wet stimuli applied to the forehead, neck, lower back, dorsal foot, index finger and thumb, in 10 Younger (22.4 ± 1.1 years) and 10 Older (58.2 ± 5.1 years) males. We measured local skin temperature and conductance (i.e., a marker of hydration status) at the tested sites, to establish the role of skin's thermal and mechanical parameters in ageing-induced changes in wetness sensing. Irrespective of body site, Older reported overall lower wetness perceptions than Younger across all wet-stimulus temperatures (mean difference: −14.6 mm; 95% CI: −4.3, −24.9; P = 0.008; ∼15% difference). When considering regional wetness sensitivity, the effect of ageing was more pronounced in response to the cold-wet stimulus over the lover back (mean difference Older vs. Younger: −36.8 mm; 95% CI: −68.4, −5.2; P = 0.014; ∼37% difference) and dorsal foot (mean difference: −37.1 mm; 95% CI: −68.7, −5.5; P = 0.013; ∼37% difference). We found no differences between age groups on overall thermal sensations (P = 0.744) nor local skin temperature (P = 0.372); however, we found that Older presented overall lower skin conductance than Younger (mean difference: −1.56 μS; 95% CI: −0.49, −2.62; P = 0.005), which corresponded to an ∼78% reduction in skin hydration. We conclude that skin wetness sensing decreases with ageing primarily due to age-induced changes in skin mechanics and tactile sensitivity.
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EP090027
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Accepted/In Press date: 14 October 2021
e-pub ahead of print date: 21 October 2021
Published date: December 2021
Keywords:
ageing, body temperature regulation, skin, thermoreceptors, wetness
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Local EPrints ID: 455521
URI: http://eprints.soton.ac.uk/id/eprint/455521
ISSN: 0958-0670
PURE UUID: eb034534-ec3e-436a-b74e-a1b51311640c
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Date deposited: 24 Mar 2022 17:33
Last modified: 17 Mar 2024 04:05
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Author:
Charlotte Wildgoose
Author:
Alessandro Valenza
Author:
Alex Buoite Stella
Author:
Kaltrina Feka
Author:
Antonio Bianco
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