Changes in plantar pressure and spatiotemporal parameters during gait in older adults after two different training programs

Roberto Sanchis-Sanchis; Cristina Blasco-Lafarga; Alberto Encarnación-Martínez; Pedro Pérez-Soriano

doi:10.1016/j.gaitpost.2020.01.015

Changes in plantar pressure and spatiotemporal parameters during gait in older adults after two different training programs

Gait Posture. 2020 Mar:77:250-256. doi: 10.1016/j.gaitpost.2020.01.015. Epub 2020 Jan 21.

Authors

Roberto Sanchis-Sanchis¹, Cristina Blasco-Lafarga², Alberto Encarnación-Martínez¹, Pedro Pérez-Soriano³

Affiliations

¹ Research Group in Sports Biomechanics (GIBD), Department of Physical Education and Sports, University of Valencia, Valencia, Spain.
² Sport Performance and Physical Fitness Research Group (UIRFIDE), Department of Physical Education and Sports, University of Valencia, Valencia, Spain.
³ Research Group in Sports Biomechanics (GIBD), Department of Physical Education and Sports, University of Valencia, Valencia, Spain. Electronic address: pedro.perez-soriano@uv.es.

PMID: 32066038
DOI: 10.1016/j.gaitpost.2020.01.015

Abstract

Background: Improving gait is in exercise programs for older adults (OAs) but little is known about how different gait-training approaches affect spatiotemporal parameters and plantar pressure distributions in OAs. High plantar pressures are linked to tissue injury risk, ulceration, and pain in OAs, but no studies have yet compared how they affect podobarometric variables.

Research question: The effect of changing plantar pressure on absolute and mean maximum pressure, the pressure-time integral, stride time, stance time, and gait speed in OAs following either a multicomponent training program (EG) or interval-walking training (WG).

Methods: Comfortable gait speed, strength (seat-to-stand test), and plantar pressure (Pedar-X mobile in-shoe system), were evaluated in 23 OAs (EG: n = 12, 7 female, 71.58 ± 4.56 years; WG: n = 11, 6 female, 69.64 ± 3.56 years), by dividing the plantar area into 9 regions.

Results: After 14 weeks, the maximum pressure in medial and central metatarsus areas in the dominant leg were reduced in the EG (p = 0.01 &p = 0.04, respectively), but increased in the non-dominant leg lateral heel in the WG (p = 0.03). The mean maximum pressure also increased in the WG in medial heel in the dominant leg (p = 0.02) and lateral heel in the non-dominant leg (p = 0.03). The overall pressure-time integral reduced in the whole plantar area in both legs in both groups. WG reduced stride time (dominant: p = 0.01; non-dominant: p = 0.01) and stance time (dominant: p < 0.005; non-dominant: p < 0.005). Gait speed did not change in any group. As expected, lower limb strength improved after both exercise programs (EG: p = 0.02; WG: p = 0.01).

Significance: Although these training interventions were short, they indicate the importance of exercise types. Our results suggest that OAs might benefit from periodized training, especially when multicomponent programs are introduced prior to the walking goals. Future, larger studies should explore situations in which special populations with specific foot problems might benefit from these interventions.

Keywords: Elderly; Exercise; Foot; Instrumented insole; Walking.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Aged
Aged, 80 and over
Biomechanical Phenomena
Exercise Therapy / methods*
Female
Foot / physiology*
Gait / physiology*
Humans
Male
Pressure*
Spatio-Temporal Analysis