Muscle Metabolic Energy Costs While Modifying Propulsive Force Generation During Walking

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Abstract

We pose that an age-related increase in the metabolic cost of walking arises in part from a redistribution of joint power where muscles spanning the hip compensate for insufficient ankle push-off and smaller peak propulsive forces (F P ). Young adults elicit a similar redistribution when walking with smaller F P via biofeedback. We used targeted F P biofeedback and musculoskeletal models to estimate the metabolic costs of operating lower limb muscles in young adults walking across a range of F P . Our simulations support the theory of distal-to-proximal redistribution of joint power as a determinant of increased metabolic cost in older adults during walking.

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last seen: 2026-05-19T01:45:01.086888+00:00