scholarly article | Q13442814 |
P50 | author | Cristiano Cuppini | Q57059365 |
P2093 | author name string | Liping Yu | |
Barry E Stein | |||
Benjamin A Rowland | |||
Jinghong Xu | |||
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Severe multisensory speech integration deficits in high-functioning school-aged children with Autism Spectrum Disorder (ASD) and their resolution during early adolescence | Q27303162 | ||
Multisensory Plasticity in Superior Colliculus Neurons is Mediated by Association Cortex. | Q30362099 | ||
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Brief cortical deactivation early in life has long-lasting effects on multisensory behavior | Q30425511 | ||
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The development of multisensory integration in high-functioning autism: high-density electrical mapping and psychophysical measures reveal impairments in the processing of audiovisual inputs | Q30437471 | ||
Noise-rearing disrupts the maturation of multisensory integration | Q30441990 | ||
A shared inhibitory circuit for both exogenous and endogenous control of stimulus selection | Q30448756 | ||
Incorporating cross-modal statistics in the development and maintenance of multisensory integration | Q30458701 | ||
Alterations to multisensory and unisensory integration by stimulus competition | Q30460342 | ||
Reduced multisensory integration in patients with schizophrenia on a target detection task | Q30474680 | ||
Temporal profiles of response enhancement in multisensory integration | Q30477227 | ||
Initiating the development of multisensory integration by manipulating sensory experience | Q30479219 | ||
Tuning up the developing auditory CNS. | Q30482290 | ||
Multisensory integration in the superior colliculus requires synergy among corticocollicular inputs. | Q30484052 | ||
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Neonatal cortical ablation disrupts multisensory development in superior colliculus. | Q30500471 | ||
A neural network model of multisensory integration also accounts for unisensory integration in superior colliculus | Q33670667 | ||
Audio-tactile integration in congenitally and late deaf cochlear implant users | Q33740557 | ||
The normal environment delays the development of multisensory integration. | Q33881381 | ||
Two cortical areas mediate multisensory integration in superior colliculus neurons | Q33931711 | ||
Spatial factors determine the activity of multisensory neurons in cat superior colliculus | Q34196322 | ||
What does a neuron learn from multisensory experience? | Q35034933 | ||
The development of a dialogue between cortex and midbrain to integrate multisensory information | Q36179349 | ||
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Challenges in quantifying multisensory integration: alternative criteria, models, and inverse effectiveness. | Q37529467 | ||
Neurocomputational approaches to modelling multisensory integration in the brain: a review | Q38248927 | ||
Multisensory Integration and Calibration in Children and Adults with and without Sensory and Motor Disabilities | Q38543619 | ||
A computational study of multisensory maturation in the superior colliculus (SC). | Q39731453 | ||
Superior colliculus: control of eye movements in neonatal kittens | Q41645906 | ||
A normalization model of multisensory integration | Q42739883 | ||
Modeling Cross-Modal Enhancement and Modality-Specific Suppression in Multisensory Neurons | Q44399518 | ||
Behavioral Indices of Multisensory Integration: Orientation to Visual Cues is Affected by Auditory Stimuli. | Q44987874 | ||
Multisensory Integration Uses a Real-Time Unisensory-Multisensory Transform | Q45198681 | ||
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Multisensory integration shortens physiological response latencies. | Q48151617 | ||
Excitotoxic lesions of the superior colliculus preferentially impact multisensory neurons and multisensory integration | Q48347618 | ||
Two corticotectal areas facilitate multisensory orientation behavior. | Q48421567 | ||
Multisensory orientation behavior is disrupted by neonatal cortical ablation | Q48421606 | ||
Mechanisms of within- and cross-modality suppression in the superior colliculus | Q48548982 | ||
Development of multisensory neurons and multisensory integration in cat superior colliculus | Q48757681 | ||
The influence of visual and auditory receptive field organization on multisensory integration in the superior colliculus | Q48801608 | ||
A chronic headholder minimizing facial obstructions | Q48802385 | ||
Development of the mechanisms governing midbrain multisensory integration | Q50421273 | ||
Audio-visual speech in noise perception in dyslexia. | Q50468708 | ||
Onset of cross-modal synthesis in the neonatal superior colliculus is gated by the development of cortical influences. | Q50495937 | ||
Superior colliculus lesions preferentially disrupt multisensory orientation. | Q51022542 | ||
Early visual deprivation affects the development of face recognition and of audio-visual speech perception. | Q51057541 | ||
The Bayesian brain: the role of uncertainty in neural coding and computation. | Q51635122 | ||
Using Bayes' rule to model multisensory enhancement in the superior colliculus. | Q51644833 | ||
Cortex mediates multisensory but not unisensory integration in superior colliculus | Q79936194 | ||
Altered temporal profile of visual-auditory multisensory interactions in dyslexia | Q80390443 | ||
A model of the neural mechanisms underlying multisensory integration in the superior colliculus | Q80675632 | ||
Visual deprivation alters the development of cortical multisensory integration | Q80866065 | ||
Visual experience is necessary for the development of multisensory integration | Q80919099 | ||
Early visual deprivation impairs multisensory interactions in humans | Q81305059 | ||
P433 | issue | 8 | |
P304 | page(s) | 1374-1385 | |
P577 | publication date | 2018-12-20 | |
P1433 | published in | Journal of Neuroscience | Q1709864 |
P1476 | title | Cross-Modal Competition: The Default Computation for Multisensory Processing | |
P478 | volume | 39 |
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