The benefit of knowledge: postural response modulation by foreknowledge of equilibrium perturbation in an upper limb task

Castellote, Juan M.; Kofler, Markus; Mayr, Andreas

doi:10.1007/s00421-023-05323-z

Eur J Appl Physiol

2023

DOI: 10.1007/s00421-023-05323-z

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The benefit of knowledge: postural response modulation by foreknowledge of equilibrium perturbation in an upper limb task

Juan M. Castellote,

Markus Kofler,

Andreas Mayr

Abstract: For whole-body sway patterns, a compound motor response following an external stimulus may comprise reflexes, postural adjustments (anticipatory or compensatory), and voluntary muscular activity. Responses to equilibrium destabilization may depend on both motor set and a subject`s expectation of the disturbing stimulus. To disentangle these influences on lower limb responses, we studied a model in which subjects (n = 14) were suspended in the air, without foot support, and performed a fast unilateral wrist ext… Show more

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Cortical dynamics underlying initiation of rapid steps with contrasting postural demands

Giesbers,

Billen,

van der Cruijsen

et al. 2024

Preprint

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Our ability to flexibly initiate rapid visually-guided stepping movements can be measured in the form of express visuomotor responses (EVRs), which are short-latency (∼100ms), goal-directed bursts of lower-limb muscle activity. Interestingly, we previously demonstrated that recruitment of anticipatory postural adjustments (APAs) interacted with the subcortically-generated EVRs in the lower limb, suggesting context-dependent top-down modulation.We investigated the associated cortical dynamics prior to and during rapid step initiation towards a salient visual target in twenty-one young, healthy individuals. We adopted two contrasting postural conditions by manipulating the stepping direction. Anterolateral steps involved low postural demands, whereas anteromedial stepping involved high postural demands. We recorded high-density EEG, surface electromyography from gluteus medius and ground-reaction forces.Independent component analysis and time-frequency statistics revealed significant, yet relatively modest differences between conditions in preparatory cortical dynamics, most evidently in primary motor areas. Following target presentation, we observed stronger theta and alpha power enhancement in the supplementary motor area, and stronger alpha and beta power decrease in primary motor, parietal and occipital clusters during APA recruitment that preceded steps under high postural demands. We found no differences in (pre)frontal areas associated with the observed EVR suppression in the high postural demand condition.Together, our findings point towards greater cortical involvement in step initiation under high postural demands as compared to more reflexive, stimulus-driven steps. This notion may be particularly relevant for populations where postural control is impaired by age or disease, as more cortical resources may need to be allocated during stepping.

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Cortical dynamics underlying initiation of rapid steps with contrasting postural demands

Giesbers,

Billen,

van der Cruijsen

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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The benefit of knowledge: postural response modulation by foreknowledge of equilibrium perturbation in an upper limb task

Cited by 1 publication

References 100 publications

Cortical dynamics underlying initiation of rapid steps with contrasting postural demands

Cortical dynamics underlying initiation of rapid steps with contrasting postural demands

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