TY - JOUR
T1 - A more compliant prosthetic foot better accommodates added load while walking among Servicemembers with transtibial limb loss
AU - Schnall, Barri L.
AU - Dearth, Christopher L.
AU - Elrod, Jonathan M.
AU - Golyski, Pawel R.
AU - Koehler-McNicholas, Sara R.
AU - Ray, Samuel F.
AU - Hansen, Andrew H.
AU - Hendershot, Brad D.
N1 - Publisher Copyright:
© 2019
PY - 2020/1/2
Y1 - 2020/1/2
N2 - Selecting an optimal prosthetic foot is particularly challenging for highly active individuals with limb loss, such as military personnel, who need to seamlessly perform a variety of demanding activities/tasks (often with and without external loads) while minimizing risk of musculoskeletal injuries over the longer term. Here, we expand on prior work by comparing biomechanical and functional outcomes in two prosthetic feet with the largest differences in mechanical response to added load (i.e., consistently “Compliant” and “Stiff” forefoot properties). In each foot, fourteen male Servicemembers with unilateral transtibial limb loss (from trauma) completed instrumented gait analyses in all combinations of two loading conditions (with and without 22 kg weighted vest) and two walking speeds (1.34 and 1.52 m/s), as well as the Prosthesis Evaluation Questionnaire. With the Stiff foot, sound limb peak loading was 2% smaller (p = 0.043) in the loaded versus unloaded condition, but similar between loading conditions in the Compliant foot (note, the Stiff foot was associated with larger loads, overall). Independent of load or walking speed, the Compliant (versus Stiff) foot provided 67.9% larger (p < 0.001) prosthetic push-off, 17.7% larger (p = 0.01) roll-over shape radii, and was subjectively favored by 10 participants. A more Compliant versus Stiff prosthetic foot therefore appears to better accommodate walking with and without added load, and reinforce the notion that mechanical properties of prosthetic feet should be considered for near-term performance and longer-term (joint) health.
AB - Selecting an optimal prosthetic foot is particularly challenging for highly active individuals with limb loss, such as military personnel, who need to seamlessly perform a variety of demanding activities/tasks (often with and without external loads) while minimizing risk of musculoskeletal injuries over the longer term. Here, we expand on prior work by comparing biomechanical and functional outcomes in two prosthetic feet with the largest differences in mechanical response to added load (i.e., consistently “Compliant” and “Stiff” forefoot properties). In each foot, fourteen male Servicemembers with unilateral transtibial limb loss (from trauma) completed instrumented gait analyses in all combinations of two loading conditions (with and without 22 kg weighted vest) and two walking speeds (1.34 and 1.52 m/s), as well as the Prosthesis Evaluation Questionnaire. With the Stiff foot, sound limb peak loading was 2% smaller (p = 0.043) in the loaded versus unloaded condition, but similar between loading conditions in the Compliant foot (note, the Stiff foot was associated with larger loads, overall). Independent of load or walking speed, the Compliant (versus Stiff) foot provided 67.9% larger (p < 0.001) prosthetic push-off, 17.7% larger (p = 0.01) roll-over shape radii, and was subjectively favored by 10 participants. A more Compliant versus Stiff prosthetic foot therefore appears to better accommodate walking with and without added load, and reinforce the notion that mechanical properties of prosthetic feet should be considered for near-term performance and longer-term (joint) health.
KW - Ankle-foot prosthesis
KW - Biomechanics
KW - Extremity trauma
KW - Load carriage
UR - http://www.scopus.com/inward/record.url?scp=85074429273&partnerID=8YFLogxK
U2 - 10.1016/j.jbiomech.2019.109395
DO - 10.1016/j.jbiomech.2019.109395
M3 - Article
C2 - 31668413
AN - SCOPUS:85074429273
SN - 0021-9290
VL - 98
JO - Journal of Biomechanics
JF - Journal of Biomechanics
M1 - 109395
ER -