Effects of carbon fiber custom dynamic orthosis proximal cuff design on foot loading during gait: A pilot study

Kirsten M. Anderson; Wesley J. Gari; Sara M. Magdziarz; Molly S. Pacha; Donald D. Anderson; Jason M. Wilken

doi:10.1097/PXR.0000000000000515

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Effects of carbon fiber custom dynamic orthosis proximal cuff design on foot loading during gait: A pilot study

Journal article

Peer reviewed

Effects of carbon fiber custom dynamic orthosis proximal cuff design on foot loading during gait: A pilot study

Kirsten M. Anderson, Wesley J. Gari, Sara M. Magdziarz, Molly S. Pacha, Donald D. Anderson and Jason M. Wilken

Prosthetics and orthotics international

02/11/2026

DOI: 10.1097/PXR.0000000000000515

PMID: 41668236

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Abstract

Limb trauma can result in decreased mobility, compensatory gait patterns, and pain. Carbon fiber custom dynamic orthoses (CDOs) include a cuff below the knee, posterior strut, and semi-rigid footplate. Custom dynamic orthoses alter foot loading within the footplate, but the effects of cuff design are not well understood. The purpose of this study was to determine the effect of cuff design on foot loading. Five individuals without, and 1 individual with, lower limb injury completed testing without a CDO and with a CDO with 3 different cuff designs. Loadsol insoles (Novel Electronics, St Paul, MN) were placed under the foot in the shoe or in the CDO footplate to measure peak forces and force impulse of the total foot, hindfoot, midfoot, and forefoot. No significant differences were observed with post-hoc paired sample t tests ( p > 0.05). Compared to walking without an orthosis, peak forces decreased in the CDO (11%–16% hindfoot, 20%–36% midfoot, 21%–29% forefoot). Effect sizes were medium to large when comparing with and without a CDO ( d = 0.56–1.97) and small to large when comparing between cuffs ( d = 0.24–2.99). Hindfoot force impulse increased with all cuffs (14%–29%), with medium effect sizes ( d = 0.51–0.78). The patellar tendon bearing cuff with ratcheting closure mechanism generally resulted in the greatest changes in peak forces and force impulse. Study data demonstrate the potential importance of cuff design on foot loading. The largest effects were generally observed with use of a patellar tendon bearing design with ratcheting closure mechanism.

Details

Title: Subtitle: Effects of carbon fiber custom dynamic orthosis proximal cuff design on foot loading during gait: A pilot study
Creators: Kirsten M. Anderson - University of Iowa
Wesley J. Gari - University of Iowa
Sara M. Magdziarz - University of Iowa
Molly S. Pacha - University of Iowa
Donald D. Anderson - Department of Orthopedics and Rehabilitation, The University of Iowa, Iowa City, IA, USA
Jason M. Wilken - University of Iowa
Resource Type: Journal article
Publication Details: Prosthetics and orthotics international
DOI: 10.1097/PXR.0000000000000515
PMID: 41668236
NLM abbreviation: Prosthet Orthot Int
ISSN: 1746-1553
eISSN: 1746-1553
Publisher: Lippincott
Language: English
Electronic publication date: 02/11/2026
Academic Unit: Roy J. Carver Department of Biomedical Engineering; Orthopedics and Rehabilitation; Industrial and Systems Engineering; Physical Therapy and Rehabilitation Science
Record Identifier: 9985139481102771

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