Does the central nervous system (CNS) independently control roll and pitch movements of the human body during balance corrections? To help provide an answer to this question, we perturbed the balance of 16 young healthy subjects using multi-directional rotations of the support surface. All rotations had pitch and roll components, for which either the roll (DR) or the pitch (DP) component were delayed by 150 ms or not at all (ND). The outcome measures were the biomechanical responses of the body and surface EMG activity of several muscles. Across all perturbation directions, DR caused equally delayed shifts (150 ms) in peak lateral centre of mass (COM) velocity. Across directions, DP did not cause equally delayed shifts in anterior-posterior...
Unexpected sudden perturbations challenge postural equilibrium and require reactive com-pensation. T...
In our day-to-day life, we can accurately reach for an object in our gravitational environment witho...
Stabilising shifts of the centre of mass (COM) are observed during balance recovery when subjects si...
Contains fulltext : 79705.pdf (publisher's version ) (Closed access)Does the centr...
Does the central nervous system (CNS) independently control roll and pitch movements of the human bo...
This study was designed to provide evidence for the hypothesis that human balance corrections in res...
For a variety of postural perturbations, balance disorder patients exhibit difficulties in producing...
Contains fulltext : 80542.pdf (publisher's version ) (Closed access)Support-surfac...
This study aims to estimate the control law employed by the central nervous system (CNS) to keep a p...
International audienceThis study addresses the question of how posture and movement are oriented wit...
Previous studies of patients with focal cerebellar damage underscored the importance of the cerebell...
One of the signatures of balance deficits observed in vestibular loss subjects is the greater instab...
How the CNS masters the many degrees of freedom of the musculoskeletal system to control goal-direct...
Posture control is one of the most fundamental motor tasks; however, the underlying mechanisms are s...
The present study investigated the contribution of the Hof (2007) mechanism 1 (M1-moving the center ...
Unexpected sudden perturbations challenge postural equilibrium and require reactive com-pensation. T...
In our day-to-day life, we can accurately reach for an object in our gravitational environment witho...
Stabilising shifts of the centre of mass (COM) are observed during balance recovery when subjects si...
Contains fulltext : 79705.pdf (publisher's version ) (Closed access)Does the centr...
Does the central nervous system (CNS) independently control roll and pitch movements of the human bo...
This study was designed to provide evidence for the hypothesis that human balance corrections in res...
For a variety of postural perturbations, balance disorder patients exhibit difficulties in producing...
Contains fulltext : 80542.pdf (publisher's version ) (Closed access)Support-surfac...
This study aims to estimate the control law employed by the central nervous system (CNS) to keep a p...
International audienceThis study addresses the question of how posture and movement are oriented wit...
Previous studies of patients with focal cerebellar damage underscored the importance of the cerebell...
One of the signatures of balance deficits observed in vestibular loss subjects is the greater instab...
How the CNS masters the many degrees of freedom of the musculoskeletal system to control goal-direct...
Posture control is one of the most fundamental motor tasks; however, the underlying mechanisms are s...
The present study investigated the contribution of the Hof (2007) mechanism 1 (M1-moving the center ...
Unexpected sudden perturbations challenge postural equilibrium and require reactive com-pensation. T...
In our day-to-day life, we can accurately reach for an object in our gravitational environment witho...
Stabilising shifts of the centre of mass (COM) are observed during balance recovery when subjects si...