Effectiveness of a Variable-Speed Control Based on Auditory Feedback: Is It Possible?

Hausheer, Leonardo Lagos; Bona, Renata Luísa; Biancardi, Carlo M.

doi:10.1123/ijspp.2022-0465

International Journal of Sports Physiology and Performance

2023

DOI: 10.1123/ijspp.2022-0465

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Effectiveness of a Variable-Speed Control Based on Auditory Feedback: Is It Possible?

Leonardo Lagos Hausheer

Renata Luísa Bona

Carlo M. Biancardi

Abstract: Purpose: Variable-speed control in the field is challenging for motion science. Tests were performed to evaluate speed, Froude number, and oxygen consumption if these varied when using the same frequency of steps. The objective of this study was to evaluate the use of auditory feedback to control variable speed on the treadmill and track during acceleration cycles around the transition speed. Methods: Twenty-four trained men participated. The protocol was based on 5 ramps of 50 seconds each around 80%, 90%, 10… Show more

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2024

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Muscle synergies during the walk-run and run-walk transitions

Lagos-Hausheer,

Vergara,

Munoz-Martel

et al. 2024

PeerJ

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Background Muscular synergies could represent the patterns of muscular activation used by the central nervous system (CNS) to simplify the production of movement. Studies in walking-running transitions described up to nine synergy modules, and an earlier activation of flexor and extension ankle muscular groups compared to running or walking. Our project aims to study the behaviour of muscle synergies in different stance and swing variations of walking-running (WRT) and running-walking (RWT) transitions. Methods Twenty-four trained men participated in this study. A variable speed protocol on a treadmill was developed to record the activity of 14 muscle during walking, running and relative transitions. The protocol was based on five ramps of 50 seconds each around ± 10 and 20% of the WRT speed. WRT and RWT were identified according to an abrupt change of the duty factor. Analysing surface electromyography using non-negative matrix factorization (NMF) we obtained synergy modules and temporal activation profiles. Alpha threshold for statistical tests set at 0.05. Results We described four different transition strides, two for increasing speed transitions, and two for decreasing speed transitions. Four to six synergy modules were found in each condition. According to the maximum cosine similarity results, the two identified WRT conditions shared five modules, while the two RWT conditions shared four modules. WRT and RWT overall shared 4.33 ± 0.58 modules. The activation profiles and centres of activation revealed differences among conditions. Discussion Transition occurred at step level, and transition strides were composed by walk-like and run-like steps. Compared with previous studies in running and walking, both transitions needed earlier activation of a comparable number of synergy modules. Synergies were affected by acceleration: during RWT the need to dissipate energy, to decrease the speed, was achieved by increasing the number of co-activating muscles. This was reflected in fewer synergy modules and different activation profiles compared to WRT. We believe that our results could be enforced in different applied fields, like clinical gait analysis, physiotherapy and rehabilitation, where plans including co-activation of specific muscular groups could be useful. Gait transitions are common in different sports, and therefore also application in training and sport science would be possible.

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Muscle synergies during the walk-run and run-walk transitions

Lagos-Hausheer,

Vergara,

Munoz-Martel

et al. 2024

PeerJ

View full text Add to dashboard Cite

show abstract

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Effectiveness of a Variable-Speed Control Based on Auditory Feedback: Is It Possible?

Cited by 1 publication

References 24 publications

Muscle synergies during the walk-run and run-walk transitions

Muscle synergies during the walk-run and run-walk transitions

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