scholarly article | Q13442814 |
P50 | author | Lena H Ting | Q89068180 |
P2093 | author name string | Torrence D J Welch | |
P2860 | cites work | Muscle synergies characterizing human postural responses | Q28237621 |
Muscle synergy organization is robust across a variety of postural perturbations | Q28246160 | ||
Optimal feedback control as a theory of motor coordination | Q34156556 | ||
Phase transition in force during ramp stretches of skeletal muscle | Q34169600 | ||
Neuronal population coding of movement direction | Q34189387 | ||
Proprioception from a spinocerebellar perspective | Q34198546 | ||
Optimal sensorimotor transformations for balance | Q34688497 | ||
Optimality principles in sensorimotor control | Q34716269 | ||
A feedback model reproduces muscle activity during human postural responses to support-surface translations | Q34727929 | ||
Neuromechanics of muscle synergies for posture and movement | Q34756262 | ||
A speedy solution for balance and gait analysis: angular velocity measured at the centre of body mass | Q36012237 | ||
Golgi tendon organs in mammalian skeletal muscle: functional properties and central actions | Q36301987 | ||
Dimensional reduction in sensorimotor systems: a framework for understanding muscle coordination of posture | Q36966330 | ||
Variability of postural "reflexes" in humans | Q38581775 | ||
Control of grip force during restraint of an object held between finger and thumb: responses of cutaneous afferents from the digits | Q39426111 | ||
Postural responses to changing task conditions | Q41413702 | ||
Neck, trunk and limb muscle responses during postural perturbations in humans | Q41441502 | ||
Postural coactivation and adaptation in the sway stabilizing responses of normals and patients with bilateral vestibular deficit | Q41448615 | ||
Directional sensitivity of stretch reflexes and balance corrections for normal subjects in the roll and pitch planes | Q42613122 | ||
Somatosensory control of precision grip during unpredictable pulling loads. I. Changes in load force amplitude | Q43838398 | ||
Different activations of the soleus and gastrocnemii muscles in response to various types of stance perturbation in man. | Q44328245 | ||
Muscle synergies during shifts of the center of pressure by standing persons | Q44540816 | ||
Ratio of shear to load ground-reaction force may underlie the directional tuning of the automatic postural response to rotation and translation | Q45748290 | ||
Changes in size of the stretch reflex of cat and man attributed to aftereffects in muscle spindles | Q47192520 | ||
Postural feedback responses scale with biomechanical constraints in human standing | Q47383652 | ||
A robotic device for understanding neuromechanical interactions during standing balance control | Q47745424 | ||
Head-trunk coordination during linear anterior-posterior translations | Q47986332 | ||
Postural adjustments in sitting humans following external perturbations: muscle activity and kinematics | Q48201283 | ||
Time-dependent influence of sensorimotor set on automatic responses in perturbed stance. | Q48255744 | ||
Fixed patterns of rapid postural responses among leg muscles during stance | Q48256795 | ||
Role of vestibular information in initiation of rapid postural responses | Q48343163 | ||
The motor cortex and the coding of force | Q48468166 | ||
The effect of perturbation acceleration and advance warning on the neck postural responses of seated subjects | Q48601748 | ||
Representation of multiple kinematic parameters of the cat hindlimb in spinocerebellar activity | Q48623027 | ||
Modularity of Motor Output Evoked By Intraspinal Microstimulation in Cats | Q48948694 | ||
Representation of passive hindlimb postures in cat spinocerebellar activity | Q48949628 | ||
Postural responses evoked by platform pertubations are dominated by continuous feedback. | Q51017853 | ||
Independent representations of limb axis length and orientation in spinocerebellar response components. | Q51338614 | ||
A limited set of muscle synergies for force control during a postural task. | Q51624410 | ||
Movement reduces the dynamic response of muscle spindle afferents and motoneuron synaptic potentials in rat. | Q51728156 | ||
Properties of synergies arising from a theory of optimal motor behavior. | Q52009960 | ||
Biomechanical analysis of movement strategies in human forward trunk bending. I. Modeling. | Q52060280 | ||
Significance of cutaneous input for precise hand movements. | Q52134822 | ||
Changes in the tibialis anterior tendon moment arm from rest to maximum isometric dorsiflexion: in vivo observations in man. | Q52141828 | ||
Prediction and set-dependent scaling of early postural responses in cerebellar patients. | Q52196383 | ||
Reaching movements with similar hand paths but different arm orientations. I. Activity of individual cells in motor cortex. | Q52276285 | ||
An optimal control model for analyzing human postural balance. | Q52358551 | ||
A unified view of quiet and perturbed stance: simultaneous co-existing excitable modes. | Q53625777 | ||
Hand trajectory invariance in reaching movements involving the trunk. | Q53888974 | ||
Postural control model interpretation of stabilogram diffusion analysis. | Q53912324 | ||
Position Sensitivity of Human Muscle Spindles: Single Afferent and Population Representations | Q61714909 | ||
The acceleration response of a primary muscle-spindle ending to ramp stretch of the extrafusal muscle | Q68405860 | ||
Dynamic analysis of muscle spindle endings in the cat using length changes of different length-time relations | Q68419597 | ||
Influence of stimulus parameters on human postural responses | Q68470371 | ||
[Pro and contra on the acceleration sensitivity of muscle spindles] | Q68488579 | ||
The dependency of the acceleration response of primary muscle spindle endings on the mechanical properties of the muscle | Q68534061 | ||
Compensation of translational and rotational perturbations in human posture: stabilization of the centre of gravity | Q69143694 | ||
Stance dependence of automatic postural adjustments in humans | Q69426526 | ||
Central programming of postural movements: adaptation to altered support-surface configurations | Q69572894 | ||
Influence of central set on human postural responses | Q69788497 | ||
Bilateral labyrinthectomy in the cat: effects on the postural response to translation | Q71870858 | ||
Relations between joint torque, motion, and electromyographic patterns at the human elbow | Q71889732 | ||
The 'deceleration response' to transient perturbation of upright stance | Q72830151 | ||
Ankle and hip postural strategies defined by joint torques | Q73032046 | ||
Internal models in the control of posture | Q73186168 | ||
Intrinsic Properties and Reflex Compensation in Reinnervated Triceps Surae Muscles of the Cat: Effect of Movement History | Q73366884 | ||
How do non-muscular torques contribute to the kinetics of postural recovery following a support surface translation? | Q73411118 | ||
Goal-equivalent joint coordination in pointing: affect of vision and arm dominance | Q74473214 | ||
The translating platform paradigm: perturbation displacement waveform alters the postural response | Q74618746 | ||
Effects of varying acceleration of platform translation and toes-up rotations on the pattern and magnitude of balance reactions in humans | Q77404681 | ||
EMG responses to maintain stance during multidirectional surface translations | Q77410078 | ||
A multisensory integration model of human stance control | Q77870687 | ||
The central control of the dynamic response of muscle spindle receptors | Q78936205 | ||
Deceleration affects anticipatory and reactive components of triggered postural responses | Q80927478 | ||
P433 | issue | 6 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | acceleration | Q11376 |
P304 | page(s) | 3294-3309 | |
P577 | publication date | 2009-04-08 | |
P1433 | published in | Journal of Neurophysiology | Q1709863 |
P1476 | title | A feedback model explains the differential scaling of human postural responses to perturbation acceleration and velocity | |
P478 | volume | 101 |
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Q33784541 | Contribution of vision to postural behaviors during continuous support-surface translations |
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Q55343726 | Effects of a powered ankle-foot orthosis on perturbed standing balance. |
Q90344612 | Fictive Scratching Patterns in Brain Cortex-Ablated, Midcollicular Decerebrate, and Spinal Cats |
Q42706658 | Force encoding in muscle spindles during stretch of passive muscle. |
Q37175827 | Force encoding in stick insect legs delineates a reference frame for motor control |
Q27321710 | Generation of the Human Biped Stance by a Neural Controller Able to Compensate Neurological Time Delay |
Q41965490 | Hind limb motoneurons activity during fictive locomotion or scratching induced by pinna stimulation, serotonin, or glutamic acid in brain cortex-ablated cats |
Q42203916 | Hip and ankle responses for reactive balance emerge from varying priorities to reduce effort and kinematic excursion: A simulation study |
Q37147470 | Long-latency muscle activity reflects continuous, delayed sensorimotor feedback of task-level and not joint-level error |
Q41649980 | Mechanical effort predicts the selection of ankle over hip strategies in nonstepping postural responses. |
Q30438547 | Mechanisms of motor adaptation in reactive balance control |
Q38548708 | More Falls in Cerebellar Ataxia When Standing on a Slow Up-Moving Tilt of the Support Surface. |
Q37535979 | Neuromechanical tuning of nonlinear postural control dynamics |
Q34236572 | Optimization of muscle activity for task-level goals predicts complex changes in limb forces across biomechanical contexts |
Q48493401 | Postural adjustments to support surface perturbations during reaching depend upon body-target reference frame |
Q40758025 | Postural responses to unexpected perturbations of balance during reaching |
Q35248019 | Postural strategies assessed with inertial sensors in healthy and parkinsonian subjects |
Q47955729 | Referent control of the orientation of posture and movement in the gravitational field. |
Q38048703 | Review and perspective: neuromechanical considerations for predicting muscle activation patterns for movement |
Q36533203 | Sensorimotor feedback based on task-relevant error robustly predicts temporal recruitment and multidirectional tuning of muscle synergies |
Q35086540 | Stability in a frontal plane model of balance requires coupled changes to postural configuration and neural feedback control |
Q36534180 | Statistically significant contrasts between EMG waveforms revealed using wavelet-based functional ANOVA. |
Q35951374 | Task-level feedback can explain temporal recruitment of spatially fixed muscle synergies throughout postural perturbations |
Q26853467 | The role of textured material in supporting perceptual-motor functions |
Q28392621 | Towards design of a stumble detection system for artificial legs |
Q42368484 | Virtual Balancing for Studying and Training Postural Control. |
Q34397852 | Voluntary and reactive recruitment of locomotor muscle synergies during perturbed walking |
Q58729135 | Where to Step? Contributions of Stance Leg Muscle Spindle Afference to Planning of Mediolateral Foot Placement for Balance Control in Young and Old Adults |
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