The role of sensory systems in the cortical control of dynamic balance was examined using electroencephalography (EEG) recordings during balance perturbations while walking. Specifically, we examined the impact of sensory deficits on cortical oscillations using vibratory stimuli to suppress sensory feedback and by comparing cortical oscillations during balance perturbations while walking in people with sensory deficits associated with cervical myelopathy and neurologically intact controls. Balance during walking provides a rich framework for investigating cortical control using EEG during a functionally relevant task. While this approach is promising, substantial technical challenges remain in recording and processing EEG in the noisy, arti...
Cortical involvement in postural control is well recognized, however the role of non-visual afferent...
Increasing evidence suggests cortical involvement in the control of human gait. However, the nature ...
© 2018 Gerasimenko, Sayenko, Gad, Kozesnik, Moshonkina, Grishin, Pukhov, Moiseev, Gorodnichev, Selio...
Safe and effective walking is a crucial part of daily human life, but the number of injuries and res...
Understanding how the human brain cortex behaves when the dynamical balance is unexpectedly challeng...
The contributions of the cerebral cortex to human balance control are clearly demonstrated by the pr...
Human movement requires adequate postural control. Stimulation of the sensory systems induces altera...
Neural control of standing balance has been extensively studied. However, most falls occur during wa...
A wealth of evidence exists to suggest that the cerebellum has an important role in the integration ...
Locomotion relies on the fine-tuned coordination of different muscles which are controlled by partic...
Human bipedal balance is a complex sensorimotor task controlled by the central nervous system. Balan...
Abstract Background Considerable effort has been devo...
The role of the brainstem and cerebellum in dizziness and balance have been studied extensively howe...
Spinal Cord Injury (SCI) has a devastating impact on the motor control and affects many essential ph...
Maintaining dynamic balance is an important component of walking function that is likely impaired in...
Cortical involvement in postural control is well recognized, however the role of non-visual afferent...
Increasing evidence suggests cortical involvement in the control of human gait. However, the nature ...
© 2018 Gerasimenko, Sayenko, Gad, Kozesnik, Moshonkina, Grishin, Pukhov, Moiseev, Gorodnichev, Selio...
Safe and effective walking is a crucial part of daily human life, but the number of injuries and res...
Understanding how the human brain cortex behaves when the dynamical balance is unexpectedly challeng...
The contributions of the cerebral cortex to human balance control are clearly demonstrated by the pr...
Human movement requires adequate postural control. Stimulation of the sensory systems induces altera...
Neural control of standing balance has been extensively studied. However, most falls occur during wa...
A wealth of evidence exists to suggest that the cerebellum has an important role in the integration ...
Locomotion relies on the fine-tuned coordination of different muscles which are controlled by partic...
Human bipedal balance is a complex sensorimotor task controlled by the central nervous system. Balan...
Abstract Background Considerable effort has been devo...
The role of the brainstem and cerebellum in dizziness and balance have been studied extensively howe...
Spinal Cord Injury (SCI) has a devastating impact on the motor control and affects many essential ph...
Maintaining dynamic balance is an important component of walking function that is likely impaired in...
Cortical involvement in postural control is well recognized, however the role of non-visual afferent...
Increasing evidence suggests cortical involvement in the control of human gait. However, the nature ...
© 2018 Gerasimenko, Sayenko, Gad, Kozesnik, Moshonkina, Grishin, Pukhov, Moiseev, Gorodnichev, Selio...