Foot offloading associated with carbon fiber orthosis use: A pilot study

Gait Posture. 2024 Jun:111:191-195. doi: 10.1016/j.gaitpost.2024.04.032. Epub 2024 May 3.

Abstract

Background: Traumatic lower limb injuries can result in chronic pain. Orthotic interventions are a leading conservative approach to reduce pain, manage loading, and protect the foot. Robust carbon fiber custom dynamic orthoses (CDOs) designed for military service members have been shown to reduce foot loading. However, the effect of carbon fiber orthosis design, including designs widely used in the civilian sector, on foot loading is unknown.

Research question: Determine if carbon fiber orthoses alter foot loading during gait.

Methods: Loadsol insoles were used to measure peak forces and force impulse acting on the forefoot, midfoot, hindfoot, and total foot. Nine healthy, able-bodied individuals participated. Force impulse was quantified as cumulative loading throughout stance phase. Participants walked without an orthosis and with three carbon fiber orthoses of differing designs: a Firm stiffness CDO, a Moderate stiffness CDO, and a medial and lateral strut orthosis (MLSO).

Results: There were significant main effects of orthosis condition on peak forefoot forces as well as forefoot and hindfoot force impulse. Peak forefoot forces were significantly lower in the Moderate and Firm CDOs compared to no orthosis and MLSO. Compared to walking without an orthosis, forefoot force impulse was significantly lower and hindfoot force impulse was significantly greater in all carbon fiber orthoses. Additionally, hindfoot force impulse in the Firm CDO was significantly higher than in the MLSO and Moderate CDO.

Significance: The three carbon fiber orthosis designs differed regarding foot loading, with more robust orthoses providing greater forefoot offloading. Orthosis-related changes in forefoot loading suggest that carbon fiber orthoses could reduce loading-associated pain during gait. However, increased hindfoot force impulse suggests caution should be used when considering carbon fiber orthoses for individuals at risk of skin breakdown with repetitive loading.

Keywords: Ankle foot orthosis; Gait; Plantar loading.

MeSH terms

  • Adult
  • Biomechanical Phenomena
  • Carbon
  • Carbon Fiber*
  • Equipment Design*
  • Female
  • Foot / physiology
  • Foot Orthoses*
  • Gait / physiology
  • Humans
  • Male
  • Pilot Projects
  • Weight-Bearing* / physiology
  • Young Adult

Substances

  • Carbon Fiber
  • Carbon