The Effect of Dimple Insole Design on the Plantar Temperature and Pressure in People with Diabetes and in Healthy Individuals

Martha Zequera, Alejandro J. Almenar-Arasanz, Javier Alfaro-Santafé, David Allan, Andrés Anaya, Mauricio Cubides, Natalia Rodríguez, Cesar Salazar, Roozbeh Naemi, Yih-Kuen Jan (Editor), Chi-Wen Lung (Editor), Ben-Yi Liau (Editor), Manuel E. Hernandez (Editor)

Research output: Contribution to journalArticlepeer-review

Abstract

An increase in plantar pressure and skin temperature is commonly associated with an increased risk of diabetic foot ulcers. However, the effect of insoles in reducing plantar temperature has not been commonly studied. The aim was to assess the effect of walking in insoles with different features on plantar temperature. Twenty-six (F/M:18/8) participants—13 with diabetes and 13 healthy, aged 55.67 ± 9.58 years—participated in this study. Skin temperature at seven plantar regions was measured using a thermal camera and reported as the difference between the temperature after walking with an insole for 20 m versus the baseline temperature. The mixed analyses of variance indicated substantial main effects for the Insole Condition, for both the right [Wilks’ Lambda = 0.790, F(14, 492) = 4.393, p < 0.01, partial eta squared = 0.111] and left feet [Wilks’ Lambda = 0.890, F(14, 492) = 2.103, p < 0.011, partial eta squared = 0.056]. The 2.5 mm-tall dimple insole was shown to be significantly more effective at reducing the temperature in the hallux and third met head regions compared to the 4 mm-tall dimple insole. The insoles showed to be significantly more effective in the diabetes group versus the healthy group, with large effect size for the right [Wilks’ Lambda = 0.662, F(14, 492) = 8.037, p < 0.000, Partial eta-squared = 0.186] and left feet [Wilks’ Lambda = 0.739, F(14, 492) = 5.727, p < 0.000, Partial eta-squared = 0.140]. This can have important practical implications for designing insoles with a view to decrease foot complications in people with diabetes.
Original languageEnglish
Article number5579
Pages (from-to)1-16
Number of pages16
JournalSensors
Volume24
Issue number17
Early online date28 Aug 2024
DOIs
Publication statusPublished online - 28 Aug 2024

Bibliographical note

Publisher Copyright:
© 2024 by the authors.

Data Access Statement

Data are available upon reasonable request.

Keywords

  • thermal imaging
  • walking
  • thermography
  • diabetic foot
  • plantar pressure
  • dimple insole
  • foot temperature
  • orthotics
  • foot ulcer

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