Human cervical spinal cord circuitry activated by tonic input can generate rhythmic arm movements.
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Increasing cognitive load attenuates right arm swing in healthy human walkingExperimental investigations of control principles of involuntary movement: a comprehensive review of the Kohnstamm phenomenon.The Spark of Life: Engaging the Cortico-Truncoreticulo-Propriospinal Pathway by Electrical Stimulation.Stability of Kinesthetic Perception in Efferent-Afferent Spaces: The Concept of Iso-perceptual Manifold.Low Gain Servo Control During the Kohnstamm Phenomenon Reveals Dissociation Between Low-Level Control Mechanisms for Involuntary vs. Voluntary Arm Movements.Arm swing asymmetry in overground walking
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Human cervical spinal cord circuitry activated by tonic input can generate rhythmic arm movements.
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Human cervical spinal cord cir ...... nerate rhythmic arm movements.
@en
Human cervical spinal cord cir ...... nerate rhythmic arm movements.
@nl
type
label
Human cervical spinal cord cir ...... nerate rhythmic arm movements.
@en
Human cervical spinal cord cir ...... nerate rhythmic arm movements.
@nl
prefLabel
Human cervical spinal cord cir ...... nerate rhythmic arm movements.
@en
Human cervical spinal cord cir ...... nerate rhythmic arm movements.
@nl
P2093
P2860
P356
P1476
Human cervical spinal cord cir ...... enerate rhythmic arm movements
@en
P2093
D S Zhvansky
V A Selionov
V S Gurfinkel
P2860
P304
P356
10.1152/JN.00897.2015
P407
P577
2015-12-16T00:00:00Z