This study examines the relationship between stopping a planned gait initiation due to sudden environmental changes and maintaining body stability. Using a gait initiation version of the Stop Signal Task (SST), we studied changes in anticipatory postural adjustments (APAs) during gait initiation and suppression. We found that trial-level variables, such as the time to start or stop stepping, interacted with biomechanical factors like the center of mass displacement relative to the base of support affecting performance. A critical biomechanical threshold was identified, beyond which stopping movement was unlikely. These findings highlight the strong link between limb action control and body equilibrium, offering a framework within a motor control paradigm. By integrating biomechanical elements, the model effectively simulates real-life scenarios, identifying key variables for studying neural correlations between action and postural control, and aiding in the development of injury prevention and rehabilitation tools for individuals with movement and posture impairments.
Balancing postural control and motor inhibition during gait initiation / Fiori, Lorenzo; Ramawat, Surabhi; Marc, Isabel Beatrice; Giuffrida, Valentina; Ranavolo, Alberto; Draicchio, Francesco; Pani, Pierpaolo; Ferraina, Stefano; Brunamonti, Emiliano. - In: ISCIENCE. - ISSN 2589-0042. - 28:3(2025), pp. 1-17. [10.1016/j.isci.2025.111970]
Balancing postural control and motor inhibition during gait initiation
Fiori, Lorenzo;Ramawat, Surabhi;Marc, Isabel Beatrice;Giuffrida, Valentina;Ranavolo, Alberto;Draicchio, Francesco;Pani, Pierpaolo;Ferraina, Stefano;Brunamonti, Emiliano
2025
Abstract
This study examines the relationship between stopping a planned gait initiation due to sudden environmental changes and maintaining body stability. Using a gait initiation version of the Stop Signal Task (SST), we studied changes in anticipatory postural adjustments (APAs) during gait initiation and suppression. We found that trial-level variables, such as the time to start or stop stepping, interacted with biomechanical factors like the center of mass displacement relative to the base of support affecting performance. A critical biomechanical threshold was identified, beyond which stopping movement was unlikely. These findings highlight the strong link between limb action control and body equilibrium, offering a framework within a motor control paradigm. By integrating biomechanical elements, the model effectively simulates real-life scenarios, identifying key variables for studying neural correlations between action and postural control, and aiding in the development of injury prevention and rehabilitation tools for individuals with movement and posture impairments.| File | Dimensione | Formato | |
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