Yu. S. Levik scite author profile

We attempted to elicit automatic stepping in healthy humans using appropriate afferent stimulation. It was found that continuous leg muscle vibration produced rhythmic locomotor-like stepping movements of the suspended leg, persisting up to the end of stimulation and sometimes outlasting it by a few cycles. Air-stepping elicited by vibration did not differ from the intentional stepping under the same conditions, and involved movements in hip and knee joints with reciprocal electromyogram (EMG) bursts in corresponding flexor and extensor muscles. The phase shift between evoked hip and knee movements could be positive or negative, corresponding to 'backward' or 'forward' locomotion. Such an essential feature of natural human locomotion as alternating movements of two legs, was also present in vibratory-evoked leg movements under appropriate conditions. It is suggested that vibration evokes locomotor-like movements because vibratory-induced afferent input sets into active state the central structures responsible for stepping generation.

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Human equilibrium on unstable support: the importance of feet-support interaction

Ivanenko

Levik

Talis

et al. 1997

Neuroscience Letters

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Postural instability enhances motor responses to transcranial magnetic stimulation in humans

Солопова

Kazennikov

Deniskina

et al. 2003

Neuroscience Letters

100

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Immediate and remote postactivation effects in the human motor system

Gurfinkel¹,

Levik²,

Lebedev³

1990

Neurophysiology

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Yu. S. Levik

Kinesthetic reference for human orthograde posture

Locomotor‐like movements evoked by leg muscle vibration in humans

Human equilibrium on unstable support: the importance of feet-support interaction

Postural instability enhances motor responses to transcranial magnetic stimulation in humans

Immediate and remote postactivation effects in the human motor system

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