scholarly article | Q13442814 |
P50 | author | Claire F Honeycutt | Q89929752 |
P2093 | author name string | Eric J Perreault | |
Vengateswaran J Ravichandran | |||
Sydney Y Schaefer | |||
Nathan J Kirkpatrick | |||
P2860 | cites work | Corticospinal modulation induced by sounds depends on action preparedness. | Q30220393 |
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Different Effects of Startling Acoustic Stimuli (SAS) on TMS-Induced Responses at Rest and during Sustained Voluntary Contraction. | Q30376185 | ||
Startling acoustic stimuli can evoke fast hand extension movements in stroke survivors | Q30394657 | ||
Deficits in startle-evoked arm movements increase with impairment following stroke | Q30405628 | ||
Evidence for reticulospinal contributions to coordinated finger movements in humans | Q30429826 | ||
Instruction-dependent modulation of the long-latency stretch reflex is associated with indicators of startle | Q30431795 | ||
Planning of ballistic movement following stroke: insights from the startle reflex | Q30463925 | ||
The primate reticulospinal tract, hand function and functional recovery | Q30471249 | ||
A neuropsychological theory of motor skill learning | Q30472431 | ||
Differential effects of startle on reaction time for finger and arm movements. | Q30484365 | ||
Patterned ballistic movements triggered by a startle in healthy humans | Q33858570 | ||
A primary acoustic startle circuit: lesion and stimulation studies. | Q34278397 | ||
Can prepared responses be stored subcortically? | Q34358373 | ||
Cortical ensemble activity increasingly predicts behaviour outcomes during learning of a motor task | Q34509173 | ||
The startle reflex, voluntary movement, and the reticulospinal tract | Q36453068 | ||
Considerations for the use of a startling acoustic stimulus in studies of motor preparation in humans. | Q37751091 | ||
Preparation for voluntary movement in healthy and clinical populations: evidence from startle. | Q37950163 | ||
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Neuropsychological evidence for multiple implicit memory systems: a comparison of Alzheimer's, Huntington's, and Parkinson's disease patients | Q38483970 | ||
Plasticity of the acoustic startle response in the acutely decerebrate rat | Q38562799 | ||
Prism adaptation and other tasks involving spatial abilities in patients with Parkinson's disease, patients with frontal lobe lesions and patients with unilateral temporal lobectomies | Q41214878 | ||
Functional anatomy of human procedural learning determined with regional cerebral blood flow and PET. | Q45308630 | ||
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The acoustic startle reflex in ischemic stroke | Q48095914 | ||
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Motor cortex is required for learning but not for executing a motor skill. | Q48221060 | ||
Role of brainstem-spinal projections in voluntary movement | Q58050131 | ||
Effects of the intensity of auditory and visual ready signals on simple reaction time | Q71291945 | ||
Prepared movements are elicited early by startle | Q80357301 | ||
The early release of planned movement by acoustic startle can be delayed by transcranial magnetic stimulation over the motor cortex | Q82714234 | ||
Motor preparation and the effects of practice: evidence from startle | Q83329960 | ||
StartReact restores reaction time in HSP: evidence for subcortical release of a motor program | Q87019516 | ||
Reduced StartReact effect and freezing of gait in Parkinson's disease: two of a kind? | Q87416295 | ||
Deficits on conditional associative-learning tasks after frontal- and temporal-lobe lesions in man. | Q48544308 | ||
Brain stem pathways, cortical modulation, and habituation of the acoustic startle response | Q48565666 | ||
Temporal uncertainty does not affect response latencies of movements produced during startle reactions | Q48588555 | ||
New observations on the normal auditory startle reflex in man. | Q48680334 | ||
Lesions of pontine and medullary reticular formation and prestimulus inhibition of the acoustic startle reaction in rats | Q48685333 | ||
Adaptation to lateral displacement of vision in patients with lesions of the central nervous system | Q48801491 | ||
Motor learning in man: a positron emission tomographic study. | Q48910299 | ||
Lhx3-Chx10 reticulospinal neurons in locomotor circuits. | Q49043682 | ||
The effect of attention on the release of anticipatory timing actions. | Q50639350 | ||
Simple reaction time as a function of stimulus intensity in decibels of light and sound. | Q50647597 | ||
Startle induces early initiation of classically conditioned postural responses. | Q50785410 | ||
An examination of the startle response during upper limb stretch perturbations. | Q51755078 | ||
Startle response of human neck muscles sculpted by readiness to perform ballistic head movements. | Q52130950 | ||
Early consolidation in human primary motor cortex. | Q52545094 | ||
Electric and acoustic stimulation during movement preparation can facilitate movement execution in healthy participants and stroke survivors. | Q53153513 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | e0195689 | |
P577 | publication date | 2018-05-09 | |
P1433 | published in | PLOS One | Q564954 |
P1476 | title | Evidence for startle as a measurable behavioral indicator of motor learning. | |
P478 | volume | 13 |
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