Skin properties and afferent density in the deterioration of tactile spatial acuity with age

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Abstract

Tactile sensitivity is affected by age, as shown by the deterioration of spatial acuity assessed with the two‐point discrimination task. This is assumed to be partly a result of age‐related changes of the peripheral somatosensory system. In particular, in the elderly, the density of mechanoreceptive afferents decreases with age and the skin tends to become drier, less elastic and less stiff. To assess to what degree mechanoreceptor density, skin hydration, elasticity and stiffness can account for the deterioration of tactile spatial sensitivity observed in the elderly, several approaches were combined, including psychophysics, measurements of finger properties, modelling and simulation of the response of first‐order tactile neurons. Psychophysics confirmed that the Elderly group has lower tactile acuity than the Young group. Correlation and commonality analysis showed that age was the most important factor in explaining decreases in behavioural performance. Biological elasticity, hydration and finger pad area were also involved. These results were consistent with the outcome of simulations showing that lower afferent density and lower Young's modulus (i.e. lower stiffness) negatively affected the tactile encoding of stimulus information. Simulations revealed that these changes resulted in a lower build‐up of task‐relevant stimulus information. Importantly, the reduction in discrimination performance with age in the simulation was less than that observed in the psychophysical testing, indicating that there are additional peripheral as well as central factors responsible for age‐related changes in tactile discrimination. image Key points: Ageing effects on tactile perception involve the deterioration of spatial sensitivity, although the contribution of central and peripheral factors is not clear. We combined psychophysics, measurements of finger properties, modelling and simulation of the response of first‐order tactile neurons to investigate to what extent skin elasticity, stiffness, hydration, finger pad area and afferent density can account for the lower spatial sensitivity observed in the elderly. Correlation and commonality analysis revealed that age was the most important factor to predict behavioural performance. Skin biological elasticity, hydration and finger pad area contributed to a lesser extent. The simulation of first‐order tactile neuron responses indicated that reduction in afferent density plays a major role in the deterioration of tactile spatial acuity. Simulations also showed that lower skin stiffness and lower afferent density affect the build‐up of stimulus information and the response of SA1 (i.e. type 1 slowly adapting fibres) and RA1 (i.e. type 1 rapidly adapting fibres) afferent fibres.
Original languageEnglish
Pages (from-to)1-17
Number of pages17
JournalThe Journal of Physiology
Early online date19 Dec 2022
DOIs
Publication statusE-pub ahead of print - 19 Dec 2022

Bibliographical note

Funding Information:
This work was funded by a collaborative studentship between the University of Birmingham and Procter and Gamble and a BBSRC grant BB/R003971/1 to A. M. Wing.

Publisher Copyright:
© 2022 The Authors. The Journal of Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.

Keywords

  • Computational physiology and modelling
  • Research Article
  • ageing
  • cutaneous afferent
  • modelling
  • simulations
  • skin
  • tactile perception

ASJC Scopus subject areas

  • Physiology

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