Effects of Shank Vibration on Lean After-Effect

• Published in: Journal of motor behavior Vol. 53; no. 5; pp. 611 - 621
• Main Authors: Young, David R., Layne, Charles S.
• Format: Journal Article
• Language: English
• Published: Washington Routledge 03.09.2021; Taylor & Francis Inc
• Subjects: adaptation; body schema; posture; Proprioception; sensory integration
• ISSN: 0022-2895; 1940-1027
• DOI: 10.1080/00222895.2020.1815640

Postural adaptability is related to central sensory integration and reweighting efficiency. Incline-interventions lead to lean after-effect (LAE), but it is not fully known how sensory reweighting may affect the magnitude and duration of LAE. We tasked fifteen young and healthy subjects with performing incline-interventions under conditions designed to perturb proprioception during or after the incline-intervention. We found that support surface configuration affected responses to tendon vibration. Additionally, vibration during an incline-intervention did not inhibit LAE, but vibration during an after-effect significantly affected LAE. Results reinforce claims that postural adaptation is based on modifications of central mechanisms of perception, not peripheral shank proprioceptors and improve our understanding of the role of sensory reweighting and sensory integration into postural adaptability.