Responsiveness to exoskeleton loading during bimanual reaching is associated with corticospinal tract integrity in stroke

Brunfeldt, Alexander T.; Bregman, Barbara S.; Lum, Peter S.

doi:10.3389/fnins.2024.1348103

Front. Neurosci.

2024

DOI: 10.3389/fnins.2024.1348103

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Responsiveness to exoskeleton loading during bimanual reaching is associated with corticospinal tract integrity in stroke

Alexander T. Brunfeldt,

Barbara S. Bregman,

Peter S. Lum

Abstract: BackgroundDevice-based rehabilitation of upper extremity impairment following stroke often employs one-sized-fits-all approaches that do not account for individual differences in patient characteristics.ObjectiveDetermine if corticospinal tract lesion load could explain individual differences in the responsiveness to exoskeleton loading of the arms in chronic stroke participants.MethodsFourteen stroke participants performed a bimanual shared cursor reaching task in virtual reality while exoskeletons decreased … Show more

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Gravity support from a robotic exoskeleton increases spontaneous use of the nondominant upper extremity during a choice reaching task

Culp,

DiRocco,

Brunfeldt

et al. 2024

Journal of Neurophysiology

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The objective was to determine if gravity support for the left arm of right-handed participants would increase left arm use during a 3D reaching task in virtual reality. Twelve healthy control participants each completed 630 reaching movements broken into 6 blocks. The majority of targets were placed close to the mid-sagittal plane at three heights and participants were free to use either limb when reaching for targets. The hand had to stay in the target for a prescribed dwell time before the target disappeared. For all reaching tasks within a block, the left arm gravity support was set to either 0% or 75% of full arm support. The blocks also varied in the dwell time (2, 4, or 6 sec). The order of blocks was balanced across participants in terms of gravity support level and dwell time. EMG level in the left medial deltoid decreased with increasing gravity support (p<.001) and was higher for higher targets compared to lower targets (p<.001). The odds of using the left arm were 1.95 times higher with gravity support compared to no support (p<.001). With gravity support, we expected greater shifts towards the left arm in tasks that were more energetically demanding. This was not the case, as the increased use was evenly distributed across all target heights, and use decreased or remained unchanged with increasing dwell time. Results are discussed relative to current models of limb choice and the potential use of robotic gravity support to overcome learned non-use in stroke patients.

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Gravity support from a robotic exoskeleton increases spontaneous use of the nondominant upper extremity during a choice reaching task

Culp,

DiRocco,

Brunfeldt

et al. 2024

Journal of Neurophysiology

View full text Add to dashboard Cite

show abstract

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Responsiveness to exoskeleton loading during bimanual reaching is associated with corticospinal tract integrity in stroke

Cited by 1 publication

References 52 publications

Gravity support from a robotic exoskeleton increases spontaneous use of the nondominant upper extremity during a choice reaching task

Gravity support from a robotic exoskeleton increases spontaneous use of the nondominant upper extremity during a choice reaching task

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