2020
DOI: 10.1038/s41598-020-60360-4
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Ultrasound imaging links soleus muscle neuromechanics and energetics during human walking with elastic ankle exoskeletons

Abstract: Unpowered exoskeletons with springs in parallel to human plantar flexor muscle-tendons can reduce the metabolic cost of walking. We used ultrasound imaging to look 'under the skin' and measure how exoskeleton stiffness alters soleus muscle contractile dynamics and shapes the user's metabolic rate during walking. Eleven participants (4F, 7M; age: 27.7 ± 3.3 years) walked on a treadmill at 1.25 m s −1 and 0% grade with elastic ankle exoskeletons (rotational stiffness: 0-250 Nm rad −1) in one training and two tes… Show more

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Cited by 62 publications
(45 citation statements)
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References 89 publications
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“…Future research should examine the relative contributions from each of these factors, as the cause of variations in lower limb spatial EMG amplitudes during locomotion may be multifactorial. Ultrasonic recordings of lower limb muscles during locomotion can provide direct measurements of changes in muscle architecture throughout the gait cycle (Nuckols et al, 2020). This may be useful to distinguish how neuromuscular recruitment and architectural changes affect regional variations in the spatial EMG patterns.…”
Section: F I G U R Ementioning
confidence: 99%
“…Future research should examine the relative contributions from each of these factors, as the cause of variations in lower limb spatial EMG amplitudes during locomotion may be multifactorial. Ultrasonic recordings of lower limb muscles during locomotion can provide direct measurements of changes in muscle architecture throughout the gait cycle (Nuckols et al, 2020). This may be useful to distinguish how neuromuscular recruitment and architectural changes affect regional variations in the spatial EMG patterns.…”
Section: F I G U R Ementioning
confidence: 99%
“…This mechanistic approach has been previously applied to exoskeleton development and logically helps explain why the field has so heavily focused on the ankle as a target for assistance in level walking [3,26,27]. The ankle provides the majority of power on level ground [28] and disrupted ankle mechanics common in clinical populations make it a good target for assistance [29,30].…”
Section: Introductionmentioning
confidence: 98%
“…Lower-limb robotic exoskeletons can apply assistive torque to reduce the metabolic energy used by biological muscles to produce the force and work for locomotion [1]. A majority of these successful exoskeletons have focused on providing assistance at the ankle within a laboratory setting [2][3][4][5][6][7][8][9][10]. More recently, devices have begun to move outside of laboratory confinement.…”
Section: Introductionmentioning
confidence: 99%
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“…To reduce computational requirements and increase processing speed, we cropped and down-sampled B-mode images into smaller matrices (S1 File I). First, we cropped them to focus on the soleus muscle, the largest of the calf muscles and often a target for clinical intervention [26], and eliminated both superficial (i.e., gastrocnemius muscle) and deep regions ( Fig. 2D) of the image.…”
Section: Ultrasound Image Pre-processingmentioning
confidence: 99%