BMC Sports Science, Medicine and Rehabilitation (Nov 2023)

Towards functionally individualised designed footwear recommendation for overuse injury prevention: a scoping review

  • Patrick Mai,
  • Leon Robertz,
  • Johanna Robbin,
  • Kevin Bill,
  • Gillian Weir,
  • Markus Kurz,
  • Matthieu B. Trudeau,
  • Karsten Hollander,
  • Joseph Hamill,
  • Steffen Willwacher

DOI
https://doi.org/10.1186/s13102-023-00760-x
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 19

Abstract

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Abstract Injury prevention is essential in running due to the risk of overuse injury development. Tailoring running shoes to individual needs may be a promising strategy to reduce this risk. Novel manufacturing processes allow the production of individualised running shoes that incorporate features that meet individual biomechanical and experiential needs. However, specific ways to individualise footwear to reduce injury risk are poorly understood. Therefore, this scoping review provides an overview of (1) footwear design features that have the potential for individualisation; and (2) the literature on the differential responses to footwear design features between selected groups of individuals. These purposes focus exclusively on reducing the risk of overuse injuries. We included studies in the English language on adults that analysed: (1) potential interaction effects between footwear design features and subgroups of runners or covariates (e.g., age, sex) for running-related biomechanical risk factors or injury incidences; (2) footwear comfort perception for a systematically modified footwear design feature. Most of the included articles (n = 107) analysed male runners. Female runners may be more susceptible to footwear-induced changes and overuse injury development; future research should target more heterogonous sampling. Several footwear design features (e.g., midsole characteristics, upper, outsole profile) show potential for individualisation. However, the literature addressing individualised footwear solutions and the potential to reduce biomechanical risk factors is limited. Future studies should leverage more extensive data collections considering relevant covariates and subgroups while systematically modifying isolated footwear design features to inform footwear individualisation.

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