| review article | Q7318358 |
| scholarly article | Q13442814 |
| P50 | author | Ewa Niechwiej-Szwedo | Q88026758 |
| Linda Colpa | Q91688262 | ||
| P2093 | author name string | Agnes M F Wong | |
| P2860 | cites work | Global processing in amblyopia: a review | Q21129133 |
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| The development of human visual cortex and clinical implications. | Q55009998 | ||
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| The spatial localization deficit in amblyopia | Q67596620 | ||
| Hemiretinal differences in speed of light detection in esotropic amblyopes | Q68496660 | ||
| Monocular geometry is selectively distorted in the central visual field of strabismic amblyopes | Q69722625 | ||
| Selective perturbation of visual input during prehension movements. 1. The effects of changing object position | Q70146636 | ||
| Postural sway and gait of children with convergent strabismus | Q70617865 | ||
| Amblyopic eyes have longer reaction times | Q71005684 | ||
| Further developments in binocular summation | Q71052249 | ||
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| A neural correlate for the gap effect on saccadic reaction times in monkey | Q72037928 | ||
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| MOVEMENT-PRODUCED STIMULATION IN THE DEVELOPMENT OF VISUALLY GUIDED BEHAVIOR | Q76510481 | ||
| [Measurement of reaction time in amblyopia.] | Q77184231 | ||
| Understanding the contribution of binocular vision to the control of adaptive locomotion | Q77640313 | ||
| Optimal control strategies under different feedback schedules: kinematic evidence | Q77732791 | ||
| A study of separation difficulty. Its relationship to visual acuity in normal and amblyopic eyes | Q79425571 | ||
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| Prehension deficits in amblyopia | Q79837315 | ||
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| The timing of natural prehension movements | Q80106945 | ||
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| Patterns of spatial distortions in human amblyopia are invariant to stimulus duration and instruction modality | Q80879324 | ||
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| Visual Search in Amblyopia: Abnormal Fixational Eye Movements and Suboptimal Sampling Strategies | Q91405482 | ||
| Gap effect and express saccades generation in amblyopia | Q93052766 | ||
| The upper limit of human smooth pursuit velocity | Q93640914 | ||
| The Davida Teller Award Lecture, 2016: Visual Brain Development: A review of "Dorsal Stream Vulnerability"-motion, mathematics, amblyopia, actions, and attention | Q30844191 | ||
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| Neural modulation by binocular disparity greatest in human dorsal visual stream | Q33995404 | ||
| Forward modeling allows feedback control for fast reaching movements | Q34073738 | ||
| Age- and stereovision-dependent eye-hand coordination deficits in children with amblyopia and abnormal binocularity | Q34159646 | ||
| The effect of sensory uncertainty due to amblyopia (lazy eye) on the planning and execution of visually-guided 3D reaching movements | Q34170480 | ||
| The physiology of stereopsis. | Q34205363 | ||
| The pattern of visual deficits in amblyopia | Q34216206 | ||
| A century later: Woodworth's (1899) two-component model of goal-directed aiming | Q34274200 | ||
| The control of voluntary eye movements: new perspectives | Q34399960 | ||
| Stereopsis and amblyopia: A mini-review | Q34460690 | ||
| Visual processing in amblyopia: human studies | Q34499151 | ||
| Human parietal cortex in action | Q34505346 | ||
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| Microsaccades precisely relocate gaze in a high visual acuity task. | Q34683543 | ||
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| Eye-hand coordination skills in children with and without amblyopia | Q35005981 | ||
| The brainstem control of saccadic eye movements | Q35014020 | ||
| Commentary: coordination of eye and hand in time and space | Q35037171 | ||
| Neuronal responses in visual area V2 (V2) of macaque monkeys with strabismic amblyopia | Q35162859 | ||
| Monocular and binocular reading performance in children with microstrabismic amblyopia | Q35593812 | ||
| Understanding the neural basis of amblyopia | Q35740536 | ||
| Unilateral visual impairment and neurodevelopmental performance in preschool children | Q35761934 | ||
| Characteristics of fixational eye movements in amblyopia: Limitations on fixation stability and acuity? | Q35929147 | ||
| Abnormal Fixational Eye Movements in Amblyopia | Q35940771 | ||
| The mammalian superior colliculus: laminar structure and connections | Q36284749 | ||
| Dual routes to action: contributions of the dorsal and ventral streams to adaptive behavior. | Q36287172 | ||
| Amblyopic children read more slowly than controls under natural, binocular reading conditions | Q36395987 | ||
| Variability and development of a normative data base for saccadic eye movements | Q36657303 | ||
| A quantitative study of fixation stability in amblyopia | Q36706749 | ||
| The Initiation of Smooth Pursuit is Delayed in Anisometropic Amblyopia | Q36848518 | ||
| Neurophysiology and neuroanatomy of reflexive and volitional saccades: evidence from studies of humans | Q37286739 | ||
| Neurophysiology and neuroanatomy of reflexive and voluntary saccades in non-human primates. | Q37304807 | ||
| Saccadic latency in amblyopia | Q37384547 | ||
| Effects of anisometropic amblyopia on visuomotor behavior, part 2: visually guided reaching. | Q37423575 | ||
| Effects of anisometropic amblyopia on visuomotor behavior, I: saccadic eye movements. | Q37482182 | ||
| Goal-directed aiming: Two components but multiple processes | Q37785938 | ||
| Development of human visual function | Q37847670 | ||
| Amblyopia and real-world visuomotor tasks | Q37922782 | ||
| Changes in posture control across the life span--a systems approach | Q37987845 | ||
| New concepts concerning the neural mechanisms of amblyopia and their clinical implications | Q38049417 | ||
| The impact of microsaccades on vision: towards a unified theory of saccadic function. | Q38074859 | ||
| Automatic online control of motor adjustments in reaching and grasping | Q38170938 | ||
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| The multiple process model of goal-directed reaching revisited | Q39022754 | ||
| Unilateral Amblyopia Affects Two Eyes: Fellow Eye Deficits in Amblyopia. | Q39202381 | ||
| Grip force adjustments evoked by load force perturbations of a grasped object | Q39292335 | ||
| Vision and Action | Q39439220 | ||
| Modification of visual functions of the parietal lobe at early age in the monkey | Q39602183 | ||
| Look-ahead fixations: anticipatory eye movements in natural tasks | Q40259832 | ||
| The neural basis of suppression and amblyopia in strabismus | Q41087041 | ||
| Psychophysics of suppression | Q41087061 | ||
| Abnormal saccadic substitution during small-amplitude pursuit tracking in amblyopic eyes | Q41563178 | ||
| Normal and abnormal space perception | Q41608700 | ||
| Suprathreshold spatial frequency detection and binocular interaction in strabismic and anisometropic amblyopia | Q41627967 | ||
| Cortical control of reaching movements | Q41701600 | ||
| The amblyopic eye in subjects with anisometropia show increased saccadic latency in the delayed saccade task. | Q41930123 | ||
| Eye-hand coordination: oculomotor control in rapid aimed limb movements | Q42102160 | ||
| Parieto-frontal connectivity during visually guided grasping | Q42155689 | ||
| Increased drift in amblyopic eyes | Q42606301 | ||
| Deficits of spatial localization in children with strabismic amblyopia | Q42629373 | ||
| Fixational eye movements in amblyopia and strabismus | Q43857735 | ||
| Slow control of eye position in strabismic amblyopia | Q44155577 | ||
| Abnormal functional connectivity density in children with anisometropic amblyopia at resting-state | Q44176778 | ||
| Disrupted retinotopic maps in amblyopia. | Q44310991 | ||
| Voxel-based analysis of MRI detects abnormal visual cortex in children and adults with amblyopia | Q44910088 | ||
| Impaired body balance control in adults with strabismus. | Q45197164 | ||
| Effects of induced monocular blur versus anisometropic amblyopia on saccades, reaching, and eye-hand coordination | Q45734073 | ||
| Microsaccades counteract visual fading during fixation. | Q46901797 | ||
| Living in a material world: how visual cues to material properties affect the way that we lift objects and perceive their weight. | Q47172957 | ||
| The effect of font size on reading performance in strabismic amblyopia: an eye movement investigation | Q47192580 | ||
| Slow reading in children with anisometropic amblyopia is associated with fixation instability and increased saccades | Q47245289 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P921 | main subject | amblyopia | Q207855 |
| physiological adaptation | Q67080983 | ||
| P304 | page(s) | 6817839 | |
| P577 | publication date | 2019-06-09 | |
| P1433 | published in | Neural Plasticity | Q15716605 |
| P1476 | title | Visuomotor Behaviour in Amblyopia: Deficits and Compensatory Adaptations | |
| P478 | volume | 2019 |
| Q90763063 | Concurrent maturation of visuomotor skills and motion perception in typically-developing children and adolescents | cites work | P2860 |
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