scholarly article | Q13442814 |
P2093 | author name string | Robert L Sainburg | |
Andrzej Przybyla | |||
Chase J Coelho | |||
Vivek Yadav | |||
P2860 | cites work | The assessment and analysis of handedness: The Edinburgh inventory | Q26778476 |
The evolution and genetics of cerebral asymmetry | Q28754843 | ||
Cerebral specialization and interhemispheric communication: does the corpus callosum enable the human condition? | Q33951577 | ||
From mouth to hand: Gesture, speech, and the evolution of right-handedness | Q34277137 | ||
Asymmetric division of labor in human skilled bimanual action: the kinematic chain as a model | Q34319900 | ||
Posture-based motion planning: applications to grasping | Q34431438 | ||
Optimality principles in sensorimotor control | Q34716269 | ||
Left parietal regions are critical for adaptive visuomotor control | Q35022753 | ||
Motor lateralization is characterized by a serial hybrid control scheme | Q35419169 | ||
Contralesional motor deficits after unilateral stroke reflect hemisphere-specific control mechanisms | Q36732812 | ||
Mechanisms underlying interlimb transfer of visuomotor rotations | Q36968994 | ||
Dynamic dominance varies with handedness: reduced interlimb asymmetries in left-handers. | Q37005498 | ||
Dynamic dominance persists during unsupported reaching | Q37010136 | ||
Sensorimotor performance asymmetries predict hand selection | Q37023187 | ||
Ipsilesional motor deficits following stroke reflect hemispheric specializations for movement control | Q37160750 | ||
Mechanisms and functions of brain and behavioural asymmetries. | Q37343900 | ||
Hemispheric specialization and functional impact of ipsilesional deficits in movement coordination and accuracy | Q37363472 | ||
The genetics and evolution of handedness | Q41616635 | ||
Manual asymmetries in the reproduction of a 3-dimensional spatial location. | Q44328048 | ||
The apraxias: neural mechanisms of disorders of learned movement | Q44610640 | ||
Hemispheric asymmetries in attentional control: implications for hand preference in sensorimotor tasks | Q44999698 | ||
The distribution of manual asymmetry | Q47725566 | ||
Cerebral asymmetry: motoring on. | Q47909814 | ||
The dominant and nondominant arms are specialized for stabilizing different features of task performance | Q48230970 | ||
Intersegmental dynamics are controlled by sequential anticipatory, error correction, and postural mechanisms | Q48258123 | ||
Asymmetries in the spatial localization of transformed targets | Q48412275 | ||
Intra- and interhemispheric visual-motor control of human arm movements | Q48437245 | ||
Asymmetries in the discrete and pseudocontinuous regulation of visually guided reaching | Q48514922 | ||
The organization of eye and limb movements during unrestricted reaching to targets in contralateral and ipsilateral visual space | Q48546817 | ||
The different types of limb apraxia errors made by patients with left vs. right hemisphere damage | Q48621004 | ||
Models of hemispheric specialization | Q48808000 | ||
Reaching to ipsilateral or contralateral targets: within-hemisphere visuomotor processing cannot explain hemispatial differences in motor control | Q48840674 | ||
Some effects of disconnecting the cerebral hemispheres | Q48895165 | ||
Measuring handedness with questionnaires | Q50985996 | ||
Preferential reaching across regions of hemispace in adults and children. | Q52025557 | ||
Handedness: dominant arm advantages in control of limb dynamics. | Q52028848 | ||
What drives children's limb selection for reaching in hemispace? | Q52094410 | ||
Attentional stimuli and programming hand selection: a developmental perspective. | Q52178880 | ||
Abduction, adduction and hand differences in simple and serial movements. | Q52243168 | ||
Differences in control of limb dynamics during dominant and nondominant arm reaching. | Q52891693 | ||
Nondominant Arm Advantages in Load Compensation During Rapid Elbow Joint Movements | Q53655817 | ||
Evidence for a dynamic-dominance hypothesis of handedness. | Q53674872 | ||
Rightward biases during bimanual reaching | Q57920688 | ||
Inverting the Simon effect by intention | Q58375816 | ||
Optimal response of eye and hand motor systems in pointing at a visual target. I. Spatio-temporal characteristics of eye and hand movements and their relationships when varying the amount of visual information | Q66979207 | ||
Effects of flunitrazepam on responses to lateralized visual stimuli: evidence for cerebral asymmetry of execution of manual movements to targets in contralateral and ipsilateral visual space | Q72543517 | ||
A performance measure of the degree of hand preference | Q73265024 | ||
Asymmetries in the regulation of visually guided aiming | Q73349473 | ||
Reaching patterns across working space: the effects of handedness, task demands, and comfort levels | Q80043537 | ||
The effects of skill demands and object position on the distribution of preferred hand reaches | Q80160996 | ||
Hand preference for precision grasping predicts language lateralization | Q84346873 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 825-838 | |
P577 | publication date | 2012-11-14 | |
P1433 | published in | Journal of Neurophysiology | Q1709863 |
P1476 | title | Hemispheric differences in the control of limb dynamics: a link between arm performance asymmetries and arm selection patterns | |
P478 | volume | 109 |
Q58556228 | Cognitive-perceptual load modulates hand selection in left-handers to a greater extent than in right-handers |
Q34028707 | Contralesional Arm Preference Depends on Hemisphere of Damage and Target Location in Unilateral Stroke Patients |
Q38751796 | Decisions in motion: passive body acceleration modulates hand choice. |
Q37598997 | Different strategy of hand choice after learning of constant and incremental dynamical perturbation in arm reaching |
Q45714350 | Dominant vs. nondominant arm advantage in mentally simulated actions in right handers |
Q64982646 | Effects of arm weight and target height on hand selection: A low-cost virtual reality paradigm. |
Q48517081 | Effects of mental practice in novice learners in a serial positioning skill acquisition |
Q35871351 | Effort, success, and nonuse determine arm choice |
Q37719242 | Error Detection is Critical for Visual-Motor Corrections |
Q48121942 | Handedness and Reach-to-Place Kinematics in Adults: Left-Handers Are Not Reversed Right-Handers. |
Q34683844 | Handedness can be explained by a serial hybrid control scheme |
Q90321941 | Hemispheric lateralization does not affect the cognitive and mechanical cost of a sequential motor task |
Q64254038 | Increased Perceptual and Motor Performance of the Arms of Elite Water Polo Players |
Q47610878 | Is Hand Selection Modulated by Cognitive-perceptual Load? |
Q28088732 | Major remaining gaps in models of sensorimotor systems |
Q53251386 | Modulating Children's Manual Preference Through Spontaneous Nondominant Hand Use. |
Q37213035 | Motor asymmetry in elite fencers |
Q37526106 | Motor costs and the coordination of the two arms |
Q38565664 | Motor planning poststroke: impairment in vector-coded reach plans. |
Q57175103 | Now and then: Hand choice is influenced by recent action history |
Q90702435 | Shifts of the point-of-change can be attributed to a lower mechanical cost of motor execution |
Q41967799 | Should the Equilibrium Point Hypothesis (EPH) be Considered a Scientific Theory? |
Search more.