| Nome |
# |
|
Development of human locomotion, file e291c0d4-b584-cddb-e053-3a05fe0aa144
|
1.474
|
|
Coordination of arm and wrist motion during a reaching task, file e291c0d4-d6cb-cddb-e053-3a05fe0aa144
|
737
|
|
Representation of visual gravitational motion in the human vestibular cortex, file e291c0d4-d39b-cddb-e053-3a05fe0aa144
|
701
|
|
Locomotor patterns in cerebellar ataxia, file e291c0d4-b384-cddb-e053-3a05fe0aa144
|
611
|
|
Motor patterns during walking on a slippery walkway, file e291c0d4-b470-cddb-e053-3a05fe0aa144
|
572
|
|
Kinematic strategies in newly walking toddlers stepping over different support surfaces, file e291c0d4-b053-cddb-e053-3a05fe0aa144
|
476
|
|
A novel approach to mechanical foot stimulation during human locomotion under body weight support, file e291c0d4-b140-cddb-e053-3a05fe0aa144
|
461
|
|
Migration of motor pool activity in the spinal cord reflects body mechanics in human locomotion, file e291c0d4-b405-cddb-e053-3a05fe0aa144
|
460
|
|
Control of Leg Movements Driven by EMG Activity of Shoulder Muscles, file e291c0d4-a93c-cddb-e053-3a05fe0aa144
|
447
|
|
Can modular strategies simplify neural control of multidirectional human locomotion?, file e291c0d4-b191-cddb-e053-3a05fe0aa144
|
437
|
|
Function dictates the phase dependence of vision during human locomotion, file e291c0d4-90f6-cddb-e053-3a05fe0aa144
|
415
|
|
Processing of targets in smooth or apparent motion along the vertical in the human brain: an fMRI study, file e291c0d4-b0d2-cddb-e053-3a05fe0aa144
|
410
|
|
Kinematic cues and recognition of self-generated actions, file e291c0d4-f8d4-cddb-e053-3a05fe0aa144
|
400
|
|
EMG patterns during assisted walking in the exoskeleton, file e291c0d4-90a3-cddb-e053-3a05fe0aa144
|
385
|
|
Features of hand-foot crawling behavior in human adults, file e291c0d4-b327-cddb-e053-3a05fe0aa144
|
385
|
|
Effects of speeding up or slowing down animate or inanimate motions on timing, file e291c0d4-9aff-cddb-e053-3a05fe0aa144
|
376
|
|
Muscle Activation Patterns are Bilaterally Linked during Split-Belt Treadmill Walking in Humans, file e291c0d4-b1cd-cddb-e053-3a05fe0aa144
|
372
|
|
A new ball launching system with controlled flight parameters for catching experiments, file e291c0d4-af67-cddb-e053-3a05fe0aa144
|
356
|
|
Modeling psychophysical data at the population-level: the generalized linear mixed model, file e291c0d4-905e-cddb-e053-3a05fe0aa144
|
345
|
|
Changes of gait kinematics in different simulators of reduced gravity, file e291c0d4-f36a-cddb-e053-3a05fe0aa144
|
337
|
|
Anticipating the effects of visual gravity during simulated self-motion: estimates of time-to-passage along vertical and horizontal paths, file e291c0d4-b088-cddb-e053-3a05fe0aa144
|
334
|
|
Coupling of upper and lower limb pattern generators during human crawling at different arm/leg speed combinations, file e291c0d4-b2f7-cddb-e053-3a05fe0aa144
|
326
|
|
Implied dynamics biases the visual perception of velocity, file e291c0d4-939c-cddb-e053-3a05fe0aa144
|
309
|
|
Catching what we can't see: manual interception of occluded fly-ball trajectories, file e291c0d4-b2e8-cddb-e053-3a05fe0aa144
|
281
|
|
Control of reaching movements by muscle synergy combinations, file e291c0d4-b222-cddb-e053-3a05fe0aa144
|
270
|
|
Spinal motor outputs during step-to-step transitions of diverse human gaits, file e291c0d4-91c8-cddb-e053-3a05fe0aa144
|
268
|
|
Visual gravitational motion and the vestibular system in humans, file e291c0d4-8c00-cddb-e053-3a05fe0aa144
|
254
|
|
Evolutionary and developmental modules, file e291c0d4-b2fb-cddb-e053-3a05fe0aa144
|
243
|
|
The use of on-line perceptual invariants versus cognitive internal models for the predictive control of movement and action, file e291c0d5-0ab8-cddb-e053-3a05fe0aa144
|
240
|
|
Filling gaps in visual motion for target capture, file e291c0d4-c732-cddb-e053-3a05fe0aa144
|
236
|
|
Human Locomotion under Reduced Gravity Conditions: Biomechanical and Neurophysiological Considerations, file e291c0d4-b387-cddb-e053-3a05fe0aa144
|
233
|
|
Immature Spinal Locomotor Output in Children with Cerebral Palsy, file e291c0d6-0e22-cddb-e053-3a05fe0aa144
|
231
|
|
Coherence of structural visual cues and pictorial gravity paves the way for interceptive actions, file e291c0d4-b116-cddb-e053-3a05fe0aa144
|
222
|
|
Dimensionality of joint torques and muscle patterns for reaching, file e291c0d4-9414-cddb-e053-3a05fe0aa144
|
211
|
|
Neural extrapolation of motion for a ball rolling down an inclined plane, file e291c0d4-92f1-cddb-e053-3a05fe0aa144
|
209
|
|
Multisensory Integration and Internal Models for Sensing Gravity Effects in Primates, file e291c0d4-b00b-cddb-e053-3a05fe0aa144
|
209
|
|
Tempo rubato : animacy speeds up time in the brain, file e291c0d4-b43c-cddb-e053-3a05fe0aa144
|
202
|
|
Grasping in One-Handed Catching in Relation to Performance, file e291c0d5-d68f-cddb-e053-3a05fe0aa144
|
202
|
|
A novel method for measuring gaze orientation in space in unrestrained head conditions, file e291c0d4-b28a-cddb-e053-3a05fe0aa144
|
201
|
|
Catching a ball at the right time and place: individual factors matter, file e291c0d4-b163-cddb-e053-3a05fe0aa144
|
200
|
|
Humans running in place on water at simulated reduced gravity, file e291c0d4-8ba8-cddb-e053-3a05fe0aa144
|
195
|
|
From spinal central pattern generators to cortical network: integrated BCI for walking rehabilitation, file e291c0d4-b3c8-cddb-e053-3a05fe0aa144
|
195
|
|
Gaze behavior in one-handed catching and its relation with interceptive performance: what the eyes can't tell, file e291c0d4-c714-cddb-e053-3a05fe0aa144
|
195
|
|
Differential activation of lumbar and sacral motor pools during walking at different speeds and slopes, file e291c0d8-a0f1-cddb-e053-3a05fe0aa144
|
191
|
|
Locomotor-like leg movements evoked by rhythmic arm movements in humans, file e291c0d4-8b1c-cddb-e053-3a05fe0aa144
|
189
|
|
Gait Patterns in Patients with Hereditary Spastic Paraparesis, file e291c0d6-0f67-cddb-e053-3a05fe0aa144
|
185
|
|
Tapping into rhythm generation circuitry in humans during simulated weightlessness conditions, file e291c0d4-c620-cddb-e053-3a05fe0aa144
|
180
|
|
Mapping Muscles Activation to Force Perception during Unloading, file e291c0d5-cb07-cddb-e053-3a05fe0aa144
|
179
|
|
Plasticity and modular control of locomotor patterns in neurological disorders with motor deficits, file e291c0d4-b2f9-cddb-e053-3a05fe0aa144
|
176
|
|
Spatiotemporal characteristics of muscle patterns for ball catching, file e291c0d4-b15b-cddb-e053-3a05fe0aa144
|
175
|
|
How long did it last? You would better ask a human, file e291c0d4-8b5c-cddb-e053-3a05fe0aa144
|
162
|
|
Altered insular and occipital responses to simulated vertical self-motion in patients with persistent postural-perceptual dizziness, file e291c0d6-d016-cddb-e053-3a05fe0aa144
|
158
|
|
Motion direction, luminance contrast, and speed perception: An unexpected meeting, file e291c0d7-9bd6-cddb-e053-3a05fe0aa144
|
143
|
|
Maturation of the locomotor circuitry in children with cerebral palsy, file e291c0d8-b5eb-cddb-e053-3a05fe0aa144
|
135
|
|
Spinal motoneurons of the human newborn are highly synchronized during leg movements, file e291c0d8-bae1-cddb-e053-3a05fe0aa144
|
129
|
|
Lower functional connectivity in vestibular-limbic networks in individuals with subclinical agoraphobia, file e291c0d7-e57d-cddb-e053-3a05fe0aa144
|
128
|
|
Muscle responses to passive joint movements in infants during the first year of life, file e291c0d8-039d-cddb-e053-3a05fe0aa144
|
117
|
|
Clinical Relevance of State-of-the-Art Analysis of Surface Electromyography in Cerebral Palsy, file e291c0d8-a0e7-cddb-e053-3a05fe0aa144
|
114
|
|
Ocular tracking of occluded ballistic trajectories: Effects of visual context and of target law of motion, file e291c0d8-656f-cddb-e053-3a05fe0aa144
|
113
|
|
Structural connectome and connectivity lateralization of the multimodal vestibular cortical network, file e291c0d8-9824-cddb-e053-3a05fe0aa144
|
111
|
|
Coordination of intrinsic and extrinsic foot muscles during walking, file e291c0d4-a4d3-cddb-e053-3a05fe0aa144
|
107
|
|
A whole body characterization of individual strategies, gender differences, and common styles in overarm throwing, file e291c0d8-ce2e-cddb-e053-3a05fe0aa144
|
107
|
|
Modular motor control of the sound limb in gait of people with trans-femoral amputation, file e291c0d7-e571-cddb-e053-3a05fe0aa144
|
92
|
|
Touch as an auxiliary proprioceptive cue for movement control, file e291c0d8-7daf-cddb-e053-3a05fe0aa144
|
92
|
|
Visuomotor interactions and perceptual judgments in virtual reality simulating different levels of gravity, file e291c0d7-e2c9-cddb-e053-3a05fe0aa144
|
90
|
|
Distinct locomotor precursors in newborn babies, file e291c0d8-e09d-cddb-e053-3a05fe0aa144
|
81
|
|
Emergence of different gaits in infancy: relationship between developing neural circuitries and changing biomechanics, file e291c0d8-9826-cddb-e053-3a05fe0aa144
|
77
|
|
Noise and vestibular perception of passive self-motion, file 4097be06-4f66-4f6e-a29e-f8d7e53de953
|
66
|
|
Sensitivity of occipito-temporal cortex, premotor and Broca's areas to visible speech gestures in a familiar language, file e291c0d8-9825-cddb-e053-3a05fe0aa144
|
56
|
|
Development of Locomotor-Related Movements in Early Infancy, file e291c0d9-a8c5-cddb-e053-3a05fe0aa144
|
51
|
|
Perceptual judgments of duration of parabolic motions, file e291c0d9-7d18-cddb-e053-3a05fe0aa144
|
42
|
|
Eye movements and manual interception of ballistic trajectories: effects of law of motion perturbations and occlusions, file e291c0d4-97e4-cddb-e053-3a05fe0aa144
|
35
|
|
Higher Responsiveness of Pattern Generation Circuitry to Sensory Stimulation in Healthy Humans Is Associated with a Larger Hoffmann Reflex, file 12a51678-e2d8-4a5a-a260-1ad30dd9e5ab
|
32
|
|
Modeling psychophysical data at the population-level: the generalized linear mixed model, file e291c0d5-7476-cddb-e053-3a05fe0aa144
|
32
|
|
Characterizing the Gait of People With Different Types of Amputation and Prosthetic Components Through Multimodal Measurements: A Methodological Perspective, file 055ca265-7b91-4366-8eaf-173f5dd9d186
|
29
|
|
The many roles of vision during walking, file e291c0d4-b022-cddb-e053-3a05fe0aa144
|
27
|
|
Evaluation of Spatiotemporal Patterns of the Spinal Muscle Coordination Output during Walking in the Exoskeleton, file cf0fe39e-e4a7-4ea4-a672-9088fad50db0
|
25
|
|
Hand interception of occluded motion in humans: A test of model-based versus on-line control, file e291c0d4-ccf5-cddb-e053-3a05fe0aa144
|
25
|
|
Correction and suppression of reaching movements in the cerebral cortex: Physiological and neuropsychological aspects, file e291c0d4-90a6-cddb-e053-3a05fe0aa144
|
24
|
|
Personality traits modulate subcortical and cortical vestibular and anxiety responses to sound-evoked otolithic receptor stimulation, file e291c0d4-9a77-cddb-e053-3a05fe0aa144
|
23
|
|
The evaluation of tactile dysfunction in the hand in type 1 diabetes: a novel method based on haptics, file 71bcb178-8f88-4b97-b4f3-ddd6fecb63fa
|
20
|
|
Interception of virtual throws reveals predictive skills based on the visual processing of throwing kinematics, file 7fe41a73-6f80-4652-84b3-5292861a7dfe
|
20
|
|
Simulated self-motion in a visual gravity field: sensitivity to vertical and horizontal heading in the human brain, file e291c0d4-b21c-cddb-e053-3a05fe0aa144
|
19
|
|
Superposition and modulation of muscle sy, file e291c0d4-b09c-cddb-e053-3a05fe0aa144
|
18
|
|
Mental imagery of object motion in weightlessness, file e291c0d9-abf4-cddb-e053-3a05fe0aa144
|
18
|
|
Complexity of modular neuromuscular control increases and variability decreases during human locomotor development, file 2700aabb-3905-48dd-8dda-611a65dc0fdc
|
14
|
|
Visual control of trunk translation and orientation during locomotion, file e291c0d4-9374-cddb-e053-3a05fe0aa144
|
14
|
|
Visual gravity cues in the interpretation of biological movements: Neural correlates in humans, file e291c0d4-97eb-cddb-e053-3a05fe0aa144
|
14
|
|
Observing human movements helps decoding environmental forces, file e291c0d4-b402-cddb-e053-3a05fe0aa144
|
14
|
|
Extrapolation of vertical target motion through a brief visual occlusion, file e291c0d4-b43e-cddb-e053-3a05fe0aa144
|
12
|
|
Enhancement of vestibular motion discrimination by small stochastic whole-body perturbations in young healthy humans, file 0b793d57-5ec5-485d-8cd0-4f12dd66b748
|
10
|
|
Grip forces during fast point-to-point and continuous hand movements, file e291c0d4-d4c8-cddb-e053-3a05fe0aa144
|
10
|
|
Age-related changes in the neuromuscular control of forward and backward locomotion, file e538f413-65ae-4933-a636-a0eff51be2bc
|
10
|
|
Planar Covariation of Hindlimb and Forelimb Elevation Angles during Terrestrial and Aquatic Locomotion of Dogs, file e291c0d4-d5fa-cddb-e053-3a05fe0aa144
|
9
|
|
Patterned control of human locomotion, file e291c0d4-b2e3-cddb-e053-3a05fe0aa144
|
8
|
|
Sound-evoked vestibular stimulation affects the anticipation of gravity effects during visual self-motion, file e291c0d4-d039-cddb-e053-3a05fe0aa144
|
6
|
|
Detecting temporal reversals in human locomotion, file e291c0d4-b117-cddb-e053-3a05fe0aa144
|
5
|
|
Unfamiliar Walking Movements Are Detected Early in the Visual Stream: An fMRI Study, file e291c0d4-b35d-cddb-e053-3a05fe0aa144
|
5
|
|
Role of the Insula and Vestibular System in Patients with Chronic Subjective Dizziness: An fMRI Study Using Sound-Evoked Vestibular Stimulation, file e291c0d5-89ee-cddb-e053-3a05fe0aa144
|
5
|
|
The perception of visible speech: estimation of speech rate and detection of time reversals, file e291c0d4-b355-cddb-e053-3a05fe0aa144
|
4
|
| Totale |
19.556 |