Add to ORKGPatterns of human locomotion are highly adaptive and flexible and depend on the environmental context. Locomotor adaptation requires the use of multisensory information to perceive altered environmental dynamics and generate an appropriate movement pattern. In this study, we investigated the use of multisensory information during locomotor learning. Proprioceptive perturbations were induced by vibrating tactors, placed bilaterally over the plantar surfaces. Under these altered sensory conditions, participants were asked to perform a split-belt locomotor task representative of motor learning. Twenty healthy young participants were separated into two groups: no-tactors (NT) and tactors (TC). All participants performed an overground walking tr...
Gait asymmetry resulting from neurological injury is more costly and less stable than healthy gait. ...
There is an interest to identify factors facilitating locomotor adaptation induced by split-belt wal...
Effective human locomotion requires adaptation of our movements in order to compensate for changes b...
Human locomotor adaptation requires feedback and feed-forward control processes to maintain an appro...
Human locomotor adaptation requires control processes driven by sensory feedback to maintain dynamic...
Healthy locomotion is characterized by an optimal level of movement. A walking pattern needs to be s...
Split-belt locomotion (i.e., walking with unequal leg speeds) requires a rapid adaptation of biomech...
Gait asymmetry resulting from neurological injury is more costly and less stable than healthy gait. ...
Split-belt locomotion (i.e., walking with unequal leg speeds) requires a rapid adaptation of biomech...
Split-belt locomotion (i.e., walking with unequal leg speeds) requires a rapid adaptation of biomech...
Locomotor adaptation requires input from vision, somatosensory and vestibular systems. The contribut...
Walking must be highly adaptable to new environments - people quickly learn new calibrations of thei...
The motor system has the critical capacity to adapt actions through interactions with the world. Tw...
We have previously shown that viewing simulated rotary self-motion during treadmill locomotion cause...
abstract: Sensorimotor control theories propose that the central nervous system exploits expected se...
Gait asymmetry resulting from neurological injury is more costly and less stable than healthy gait. ...
There is an interest to identify factors facilitating locomotor adaptation induced by split-belt wal...
Effective human locomotion requires adaptation of our movements in order to compensate for changes b...
Human locomotor adaptation requires feedback and feed-forward control processes to maintain an appro...
Human locomotor adaptation requires control processes driven by sensory feedback to maintain dynamic...
Healthy locomotion is characterized by an optimal level of movement. A walking pattern needs to be s...
Split-belt locomotion (i.e., walking with unequal leg speeds) requires a rapid adaptation of biomech...
Gait asymmetry resulting from neurological injury is more costly and less stable than healthy gait. ...
Split-belt locomotion (i.e., walking with unequal leg speeds) requires a rapid adaptation of biomech...
Split-belt locomotion (i.e., walking with unequal leg speeds) requires a rapid adaptation of biomech...
Locomotor adaptation requires input from vision, somatosensory and vestibular systems. The contribut...
Walking must be highly adaptable to new environments - people quickly learn new calibrations of thei...
The motor system has the critical capacity to adapt actions through interactions with the world. Tw...
We have previously shown that viewing simulated rotary self-motion during treadmill locomotion cause...
abstract: Sensorimotor control theories propose that the central nervous system exploits expected se...
Gait asymmetry resulting from neurological injury is more costly and less stable than healthy gait. ...
There is an interest to identify factors facilitating locomotor adaptation induced by split-belt wal...
Effective human locomotion requires adaptation of our movements in order to compensate for changes b...