The effect of carbon fiber custom dynamic orthosis use and design on center of pressure progression and perceived smoothness in individuals with lower limb trauma

Carbon-fiber custom dynamic orthoses are used to improve gait and limb function following lower limb trauma in specialty centers. However, the effects of commercially available orthoses on center of pressure progression and patient perception of orthosis smoothness during walking are poorly understo...

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Bibliographic Details
Published in:Clinical biomechanics (Bristol) 2024-07, Vol.117, p.106284, Article 106284
Main Authors: Sharma, Sapna, Anderson, Kirsten M., Pacha, Molly S., Falbo, Kierra J., Severe, Clare, Hansen, Andrew H., Hendershot, Brad D., Wilken, Jason M.
Format: Article
Language:English
Subjects:
Center of Pressure
Limb trauma
Orthosis
Smoothness
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Summary:Carbon-fiber custom dynamic orthoses are used to improve gait and limb function following lower limb trauma in specialty centers. However, the effects of commercially available orthoses on center of pressure progression and patient perception of orthosis smoothness during walking are poorly understood. In total, 16 participants with a unilateral lower extremity traumatic injury underwent gait analysis when walking without an orthosis, and while wearing monolithic and modular devices, in a randomized order. Device alignment, stiffness, participant rating of perceived device smoothness, center of pressure velocity, and ankle zero moment crossing were assessed. The modular device was approximately twice as stiff as the monolithic device. Alignment, smoothness ratings, peak magnitude of center of pressure velocity, and zero moment crossing were not different between study devices. The time to peak center of pressure velocity occurred significantly later for the modular device compared to the monolithic and no orthosis conditions, with large effect sizes observed. Commercially available orthoses commonly used to treat limb trauma affect the timing of center of pressure progression relative to walking without an orthosis. Despite multiple design differences, monolithic and modular orthoses included in this study did not differ with respect to other measures of center of pressure progression. Perceived smoothness ratings were approximately 40% greater with the study orthoses as compared to previous studies in specialty centers, which may be due to a more gradual center of pressure progression, as indicted by lower peak magnitude of center of pressure velocity with both study orthoses. •Orthosis design can influence forces on the limb during gait.•Effect of commercial orthoses on center of pressure progression is not understood.•Study orthoses were perceived as being smoother than reported in prior literature.•Magnitude of peak center of pressure velocity was also lower with study orthoses.
ISSN:0268-0033
1879-1271
1879-1271
DOI:10.1016/j.clinbiomech.2024.106284