Influence of muscle‐belly and tendon gearing on the energy cost of human walking

This study combines metabolic and kinematic measurements at the whole‐body level, with EMG and ultrasound measurements to investigate the influence of muscle‐tendon mechanical behavior on the energy cost (Cnet) of walking (from 2 to 8 km·h−1). Belly gearing (Gb = Δmuscle‐belly length/Δfascicles leng...

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Bibliographic Details
Published in:Scandinavian journal of medicine & science in sports 2022-05, Vol.32 (5), p.844-855
Main Authors: Monte, Andrea, Tecchio, Paolo, Nardello, Francesca, Bachero‐Mena, Beatriz, Ardigò, Luca Paolo, Zamparo, Paola
Format: Article
Language:English
Subjects:
belly gearing
Biomechanical Phenomena
cost of transport
Electromyography
human locomotion
Humans
Kinematics
Muscle, Skeletal - diagnostic imaging
Muscle, Skeletal - physiology
Original
pendular energy recovery
Tendons - diagnostic imaging
Tendons - physiology
Ultrasonic imaging
Ultrasonography
Walking
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Summary:This study combines metabolic and kinematic measurements at the whole‐body level, with EMG and ultrasound measurements to investigate the influence of muscle‐tendon mechanical behavior on the energy cost (Cnet) of walking (from 2 to 8 km·h−1). Belly gearing (Gb = Δmuscle‐belly length/Δfascicles length) and tendon gearing (Gt = ∆muscle‐tendon unit length/∆muscle‐belly length) of vastus lateralis (VL) and gastrocnemius medialis (GM) were calculated based on ultrasound data. Pendular energy recovery (%R) was calculated based on kinematic data, whereas the cumulative activity per distance travelled (CMAPD) was calculated for the VL, GM, tibialis anterior, and biceps femoris as the ratio between their EMG activity and walking speed. Finally, total CAMPD (CMAPDTOT) was calculated as the sum of the CMAPD of all the investigate muscles. Cnet and CMAPDTOT showed a U‐shaped behavior with a minimum at 4.2 and 4.1 km·h−1, respectively; while %R, VL, and GM belly gearing showed an opposite trend, reaching a maximum (60% ± 5%, 1.1 ± 0.1 and 1.5 ± 0.1, respectively), between 4.7 and 5 km·h−1. Gt was unaffected by speed in GM (3.5 ± 0.1) and decreased as a function of it in VL. A multiple stepwise linear regression indicated that %R has the greatest influence on Cnet, followed by CMAPDTOT and GM belly gearing. The role of Gb on Cnet could be attributed to its role in determining muscle work: when Gb increases, fascicles shortening decreases compared with that of the muscle‐belly, thereby reducing the energy cost of contraction.
ISSN:0905-7188
1600-0838
DOI:10.1111/sms.14142