The main questions addressed in this work were whether and how adaptation to suppression of visual information occurs in a free-fall paradigm, and the extent to which vision availability influences the control of landing movements. The prelanding modulation of EMG timing and amplitude of four lower-limb muscles was investigated. Participants performed six consecutive drop-landings from four different heights in two experimental conditions: with and without vision. Experimental design precluded participants from estimating the height of the drop. Since cues provided by proprioceptive and vestibular information acquired during the first trials were processed, the nervous system rapidly adapted to the lack of visual information, and hence prod...
Landing from a jump is related to predictive sensorimotor control. Frontal, central and parietal bra...
The pattern of muscle responses associated with catching a ball in the presence of vision was invest...
International audienceIn everyday life, because of unexpected mechanical perturbation applied to the...
The main questions addressed in this work were whether and how adaptation to suppression of visual i...
Landing on the ground on one's feet implies that the energy gained during the fall be dissipated. Th...
Prelanding EMG responses in uniarticular and biarticular flexors and extensors of the leg were asses...
We address the problem of whether and how adaptation to suppression of visual information occurs in ...
It is well known that during a self-initiated fall or a drop-landing on Earth, the lower limb muscle...
NoWe often complete step downs in the absence of visual feedback of the lower-limbs, and/or of the a...
The pre-programmed muscular activity is thought to play a key role in preparing the human body to th...
International audienceThe present study utilized high-impact supra-maximal landings to examine the i...
Sudden addition or removal of visual information can be particularly critical to balance control. Th...
With an emphasis on ballistic movements, an accurately anticipated neural control is an essential pr...
Landing from a fall is a complex action requiring the prediction of the instant of contact with the ...
On Earth, when landing from a counter-movement jump, muscles contract before touchdown to anticipate...
Landing from a jump is related to predictive sensorimotor control. Frontal, central and parietal bra...
The pattern of muscle responses associated with catching a ball in the presence of vision was invest...
International audienceIn everyday life, because of unexpected mechanical perturbation applied to the...
The main questions addressed in this work were whether and how adaptation to suppression of visual i...
Landing on the ground on one's feet implies that the energy gained during the fall be dissipated. Th...
Prelanding EMG responses in uniarticular and biarticular flexors and extensors of the leg were asses...
We address the problem of whether and how adaptation to suppression of visual information occurs in ...
It is well known that during a self-initiated fall or a drop-landing on Earth, the lower limb muscle...
NoWe often complete step downs in the absence of visual feedback of the lower-limbs, and/or of the a...
The pre-programmed muscular activity is thought to play a key role in preparing the human body to th...
International audienceThe present study utilized high-impact supra-maximal landings to examine the i...
Sudden addition or removal of visual information can be particularly critical to balance control. Th...
With an emphasis on ballistic movements, an accurately anticipated neural control is an essential pr...
Landing from a fall is a complex action requiring the prediction of the instant of contact with the ...
On Earth, when landing from a counter-movement jump, muscles contract before touchdown to anticipate...
Landing from a jump is related to predictive sensorimotor control. Frontal, central and parietal bra...
The pattern of muscle responses associated with catching a ball in the presence of vision was invest...
International audienceIn everyday life, because of unexpected mechanical perturbation applied to the...