scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1039183411 |
P356 | DOI | 10.1038/NN1420 |
P698 | PubMed publication ID | 15768037 |
P5875 | ResearchGate publication ID | 7966850 |
P2093 | author name string | Stephen H Scott | |
Troy M Herter | |||
Isaac Kurtzer | |||
P2860 | cites work | Multiple paired forward and inverse models for motor control | Q34186629 |
Relation of pyramidal tract activity to force exerted during voluntary movement | Q34225076 | ||
Optimal feedback control and the neural basis of volitional motor control | Q34328148 | ||
Optimality principles in sensorimotor control | Q34716269 | ||
The physiological basis of clinical deficits in Parkinson's disease | Q35085405 | ||
Brain-machine interfaces to restore motor function and probe neural circuits | Q35120148 | ||
Motor learning through the combination of primitives | Q35212958 | ||
The role of primary motor cortex in goal-directed movements: insights from neurophysiological studies on non-human primates | Q35602979 | ||
Cerebral cortical mechanisms of reaching movements | Q35924745 | ||
The modulation of human reflexes during functional motor tasks | Q38198284 | ||
Correlation of neural discharge with pattern and force of muscular activity, joint position, and direction of intended next movement in motor cortex and cerebellum | Q39601647 | ||
Sensori-sensory afferent conditioning with leg movement: gain control in spinal reflex and ascending paths | Q41434072 | ||
Force and the motor cortex | Q41613264 | ||
Neural activity in primary motor cortex related to mechanical loads applied to the shoulder and elbow during a postural task | Q43766638 | ||
Rhythmic arm movement is not discrete | Q46200468 | ||
Apparatus for measuring and perturbing shoulder and elbow joint positions and torques during reaching | Q48110045 | ||
Context-dependent force coding in motor and premotor cortical areas | Q48120309 | ||
Changes in the temporal pattern of primary motor cortex activity in a directional isometric force versus limb movement task | Q48391850 | ||
Systematic changes in motor cortex cell activity with arm posture during directional isometric force generation | Q48411526 | ||
Primary motor cortical neurons encode functional muscle synergies | Q48500354 | ||
Cortical networks for control of voluntary arm movements under variable force conditions | Q48506528 | ||
Overlap of internal models in motor cortex for mechanical loads during reaching. | Q48566917 | ||
Adaptation to a novel multi-force environment | Q48925507 | ||
Equilibrium-point control hypothesis examined by measured arm stiffness during multijoint movement | Q49013050 | ||
Compensation for loads during arm movements using equilibrium-point control. | Q49086850 | ||
Cognitive neural prosthetics. | Q51597205 | ||
Dynamic interactions between limb segments during planar arm movement. | Q51660322 | ||
Are complex control signals required for human arm movement? | Q52244520 | ||
Directional control of planar human arm movement. | Q52250031 | ||
Limb Position Drift: Implications for Control of Posture and Movement | Q53648067 | ||
A comparison of movement direction-related versus load direction-related activity in primate motor cortex, using a two-dimensional reaching task. | Q55059753 | ||
Functional classes of primate corticomotoneuronal cells and their relation to active force | Q55062446 | ||
Sensory input to primate spinal cord is presynaptically inhibited during voluntary movement | Q60143327 | ||
Electromyographic responses to an unexpected load in fast voluntary movements: descending regulation of segmental reflexes | Q61757021 | ||
Mechanics of feline soleus: I. Effect of fascicle length and velocity on force output | Q71503891 | ||
Corticospinal neurons with a special role in precision grip | Q71680614 | ||
The mechanical properties of cat soleus muscle during controlled lengthening and shortening movements | Q72540376 | ||
Rapid adaptation to Coriolis force perturbations of arm trajectory | Q72816442 | ||
Human cortical muscle coherence is directly related to specific motor parameters | Q73258591 | ||
The case for an internal dynamics model versus equilibrium point control in human movement | Q73322200 | ||
Once more on the equilibrium-point hypothesis (lambda model) for motor control | Q80069526 | ||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 498-504 | |
P577 | publication date | 2005-03-13 | |
P1433 | published in | Nature Neuroscience | Q1535359 |
P1476 | title | Random change in cortical load representation suggests distinct control of posture and movement | |
P478 | volume | 8 |
Q46003315 | A motor cortical contribution to the anticipatory postural adjustments that precede reaching in the cat. |
Q36966340 | A multi-level approach to understanding upper limb function |
Q40424903 | A quantitative and standardized robotic method for the evaluation of arm proprioception after stroke |
Q47828429 | A θ-γ oscillation code for neuronal coordination during motor behavior. |
Q36278181 | Accurate stepping on a narrow path: mechanics, EMG, and motor cortex activity in the cat. |
Q51690710 | Active control of bias for the control of posture and movement. |
Q47109160 | An Extended Passive Motion Paradigm for Human-Like Posture and Movement Planning in Redundant Manipulators. |
Q46228101 | An allometric analysis of the number of muscle spindles in mammalian skeletal muscles |
Q36531982 | An involuntary stereotypical grasp tendency pervades voluntary dynamic multifinger manipulation |
Q33593491 | Anticipatory control of motion-to-force transitions with the fingertips adapts optimally to task difficulty |
Q80975627 | Anticipatory postural adjustment before bimanual unloading reactions: the role of the motor cortex in motor learning |
Q35738896 | Arm dominance affects feedforward strategy more than feedback sensitivity during a postural task |
Q51713399 | Assessment of upper-limb sensorimotor function of subacute stroke patients using visually guided reaching. |
Q58612333 | Brain-machine interface cursor position only weakly affects monkey and human motor cortical activity in the absence of arm movements |
Q47341152 | Brain-state classification and a dual-state decoder dramatically improve the control of cursor movement through a brain-machine interface |
Q33702393 | Cerebellar ataxia impairs modulation of arm stiffness during postural maintenance |
Q36771012 | Cerebellar damage diminishes long-latency responses to multijoint perturbations |
Q48291084 | Characterization of torque-related activity in primary motor cortex during a multijoint postural task |
Q35005825 | Color-related signals in the primate superior colliculus. |
Q48236882 | Combined adaptiveness of specific motor cortical ensembles underlies learning. |
Q48874079 | Common encoding of novel dynamic loads applied to the hand and arm. |
Q48830222 | Comparison of neural responses in primary motor cortex to transient and continuous loads during posture |
Q34569362 | Computational motor control: redundancy and invariance |
Q46028012 | Contributors to excess antagonist activity during movement in children with secondary dystonia due to cerebral palsy. |
Q37023579 | Control of velocity and position in single joint movements |
Q43128885 | Control of wrist position and muscle relaxation by shifting spatial frames of reference for motoneuronal recruitment: possible involvement of corticospinal pathways |
Q36138561 | Coordinated alpha and gamma control of muscles and spindles in movement and posture. |
Q37017299 | Coordination deficits in ideomotor apraxia during visually targeted reaching reflect impaired visuomotor transformations |
Q48404508 | Correlations between the same motor cortex cells and arm muscles during a trained task, free behavior, and natural sleep in the macaque monkey |
Q57471966 | Cortical population activity within a preserved neural manifold underlies multiple motor behaviors |
Q42683489 | Credit assignment between body and object probed by an object transportation task. |
Q33400366 | Differences in context and feedback result in different trajectories and adaptation strategies in reaching |
Q33783774 | Differences in movement mechanics, electromyographic, and motor cortex activity between accurate and nonaccurate stepping |
Q51906574 | Different learned coordinate frames for planning trajectories and final positions in reaching. |
Q48862235 | Differential load impact upon arm tremor dynamics and coordinative strategy between postural holding and position tracking |
Q36980631 | Direct comparison of the task-dependent discharge of M1 in hand space and muscle space |
Q35151536 | Dissociation of initial trajectory and final position errors during visuomotor adaptation following unilateral stroke |
Q39039805 | Distinct neural circuits for control of movement vs. holding still |
Q91522763 | Distinct sensorimotor feedback loops for dynamic and static control of primate precision grip |
Q90318342 | Do individual differences in the distribution of activation between synergist muscles reflect individual strategies? |
Q56805651 | Down regulation of vestibular balance stabilizing mechanisms to enable transition between motor states |
Q48384811 | Effect of arm dominance on long-latency stabilizing reflex gain during posture |
Q37207608 | Effect of light on the activity of motor cortex neurons during locomotion |
Q51980739 | Endpoint stiffness of the arm is directionally tuned to instability in the environment. |
Q33906391 | Feature interactions enable decoding of sensorimotor transformations for goal-directed movement |
Q36410324 | From the motor cortex to the movement and back again |
Q42214412 | Fusimotor control of spindle sensitivity regulates central and peripheral coding of joint angles |
Q47785675 | Goal-dependent modulation of fast feedback responses in primary motor cortex |
Q35976207 | Hemispheric specialization for movement control produces dissociable differences in online corrections after stroke |
Q55385454 | Human Postural Control. |
Q37054674 | Inconvenient truths about neural processing in primary motor cortex |
Q83227397 | Independent representations of ipsilateral and contralateral limbs in primary motor cortex |
Q90632173 | Indirect, referent control of motor actions underlies directional tuning of neurons |
Q36600762 | Influence of environmental stability on the regulation of end-point impedance during the maintenance of arm posture |
Q48518081 | Interlimb transfer of visuomotor rotations depends on handedness |
Q37220950 | Ipsilesional trajectory control is related to contralesional arm paralysis after left hemisphere damage |
Q36254290 | Learning to push and learning to move: the adaptive control of contact forces |
Q52005067 | Limited transfer of learning between unimanual and bimanual skills within the same limb. |
Q55091203 | Low Gain Servo Control During the Kohnstamm Phenomenon Reveals Dissociation Between Low-Level Control Mechanisms for Involuntary vs. Voluntary Arm Movements. |
Q48008835 | Motor Cortical Visuomotor Feedback Activity Is Initially Isolated from Downstream Targets in Output-Null Neural State Space Dimensions |
Q42721578 | Movement duration, Fitts's law, and an infinite-horizon optimal feedback control model for biological motor systems |
Q36916307 | Movement trajectory smoothness is not associated with the endpoint accuracy of rapid multi-joint arm movements in young and older adults |
Q48757048 | Multi-compartment model can explain partial transfer of learning within the same limb between unimanual and bimanual reaching |
Q48352637 | Neural and electromyographic correlates of wrist posture control |
Q33735307 | Neural control of motion-to-force transitions with the fingertip |
Q39935065 | Neurons in red nucleus and primary motor cortex exhibit similar responses to mechanical perturbations applied to the upper-limb during posture |
Q43193125 | New hypotheses about postural control support the notion that all dystonias are manifestations of excessive brain postural function |
Q48411509 | Nonuniform distribution of reach-related and torque-related activity in upper arm muscles and neurons of primary motor cortex |
Q38851635 | Parallel processing of internal and external feedback in the spinocerebellar system of primates. |
Q34479778 | Partial tuning of motor cortex neurons to final posture in a free-moving paradigm |
Q35544033 | Patterns of hypermetria and terminal cocontraction during point-to-point movements demonstrate independent action of trajectory and postural controllers. |
Q28601795 | Physiological tremor reveals how thixotropy adapts skeletal muscle for posture and movement |
Q48892081 | Postural control at the human wrist. |
Q89649060 | Postural control of arm and fingers through integration of movement commands |
Q30396341 | Practice reduces task relevant variance modulation and forms nominal trajectory |
Q36907681 | Primary motor cortex neurons classified in a postural task predict muscle activation patterns in a reaching task |
Q50718213 | Rapid feedback responses correlate with reach adaptation and properties of novel upper limb loads. |
Q51891049 | Rapid motor responses are appropriately tuned to the metrics of a visuospatial task. |
Q83901104 | Rapid motor responses quickly integrate visuospatial task constraints |
Q51076284 | Reach adaptation and final position control amid environmental uncertainty after stroke. |
Q48241873 | Relationship between unconstrained arm movements and single-neuron firing in the macaque motor cortex. |
Q37393368 | Reorganization between preparatory and movement population responses in motor cortex |
Q35902425 | Robustness of muscle synergies underlying three-dimensional force generation at the hand in healthy humans |
Q50897517 | Separate adaptive mechanisms for controlling trajectory and final position in reaching. |
Q51452914 | Stability limits modulate whole-body motor learning. |
Q37428932 | Stability of muscle synergies for voluntary actions after cortical stroke in humans. |
Q48693333 | Stable ensemble performance with single-neuron variability during reaching movements in primates. |
Q36610285 | Temporal Evolution of Spatial Computations for Visuomotor Control |
Q37348375 | The Largest Response Component in the Motor Cortex Reflects Movement Timing but Not Movement Type |
Q50918745 | The cerebellum contributes to proprioception during motion. |
Q35749578 | The generalization of visuomotor learning to untrained movements and movement sequences based on movement vector and goal location remapping |
Q33379073 | The inactivation principle: mathematical solutions minimizing the absolute work and biological implications for the planning of arm movements |
Q34116076 | The influence of early aging on eye movements during motor simulation |
Q37394724 | The influence of target sensory modality on motor planning may reflect errors in sensori-motor transformations. |
Q24644564 | The kinaesthetic senses |
Q36290808 | The separate neural control of hand movements and contact forces |
Q26849428 | Toward more versatile and intuitive cortical brain-machine interfaces |
Q27325487 | Towards a naturalistic brain-machine interface: hybrid torque and position control allows generalization to novel dynamics |
Q37422293 | Transfer of dynamic learning across postures |
Q51085799 | Unexperienced mechanical effects of muscular fatigue can be predicted by the Central Nervous System as revealed by anticipatory postural adjustments. |
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