Analysis of the characteristics of lower limb muscle synergy controlistic patterns during unilateral load-bearing walking

Analysis of the characteristics of lower limb muscle synergy controlistic patterns during unilateral load-bearing walking

Background: This study aims to investigate how unilateral load-bearing conditions influence lower limb muscle synergistic control patterns during walking. Understanding these patterns is crucial for elucidating the biomechanics of gait under loaded conditions. Materials and Methods: Sixteen healthy...

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Main Authors: Jinwei ZHAO, Luyao CHEN, Fuyong LIU, Piotr ASCHENBRENNER, Tomasz GRZYWACZ, Jan STRAWIŃSKI
Format: Article
Language:English
Published: Akademia Wychowania Fizycznego i Sportu w Gdansku 2025-06-01
Series:Baltic Journal of Health and Physical Activity
Subjects:
surface emg sensors
load-bearing walking
lower limb muscles
muscle synergy
Online Access:https://www.balticsportscience.com/journal/vol17/iss2/1/
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Summary:Background: This study aims to investigate how unilateral load-bearing conditions influence lower limb muscle synergistic control patterns during walking. Understanding these patterns is crucial for elucidating the biomechanics of gait under loaded conditions. Materials and Methods: Sixteen healthy adults participated in the study. The Qualisys 600 series motion capture system was used to collect kinematic data, and the Delsys 16-channel wireless surface EMG system to record muscle activity. Four unilateral loading conditions (LL10, LR10, LL20, LR20) were tested, with normal walking as the control. Results: Load-bearing conditions significantly altered muscle contributions in different synergistic units. For example, in Synergistic Unit 1, the vastus medialis (VM) became more dominant during load-bearing walking compared to normal walking, where the vastus lateralis (VL) and tibialis anterior (TA) were primary. The soleus (SOL) also played a significant role during left-sided load-bearing at 20% body weight. Loading significantly affected the contribution weights of SOL in Synergistic Unit 2 and the semimembranosus (SM) in Synergistic Unit 4. Conclusions: Unilateral loading conditions significantly change lower limb muscle synergistic control patterns, primarily through shifts in muscle contributions. These changes may reflect the increased demand for stability and balance during load-bearing walking, providing insights into the human walking mechanism under loaded conditions.
ISSN:2080-9999

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