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Speech-in-noise detection is related to auditory working memory precision for frequency
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In: Scientific Reports, 1 December 2020 (2020)
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| 3 |
Evolutionarily conserved neural signatures involved in sequencing predictions and their relevance for language
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In: Current Opinion in Behavioral Sciences, June 2018 (2018)
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| 4 |
Evidence for causal top-down frontal contributions to predictive processes in speech perception ...
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| 5 |
Artificial grammar learning in vascular and progressive non-fluent aphasias ...
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| 6 |
Evidence for causal top-down frontal contributions to predictive processes in speech perception
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| 7 |
Artificial grammar learning in vascular and progressive non-fluent aphasias
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| 8 |
Evidence for causal top-down frontal contributions to predictive processes in speech perception
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In: Nature Communications, 1 December 2017 (2017)
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| 9 |
Artificial grammar learning in vascular and progressive non-fluent aphasias
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In: Neuropsychologia, September 2017 (2017)
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| 10 |
Hearing and dementia.
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In: Journal of Neurology (2016) (2016)
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| 11 |
Exploring the role of auditory analysis in atypical compared to typical language development
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In: Hearing Research, 01-02-2014 (2014)
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| 12 |
The right hemisphere supports but does not replace left hemisphere auditory function in patients with persisting aphasia
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In: Symplectic Elements at Oxford ; CrossRef ; ORA review team (2013)
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| 13 |
The right hemisphere supports but does not replace left hemisphere auditory function in patients with persisting aphasia.
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In: Brain , 136 (Pt 6) 1901 - 1912. (2013) (2013)
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| 14 |
Auditory temporal-regularity processing correlates with language and literacy skill in early adulthood
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In: Cognitive Neuroscience, 02-09-2013 (2013)
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| 15 |
Neural prediction of higher-order auditory sequence statistics
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In: NEUROIMAGE , 54 (3) 2267 - 2277. (2011) (2011)
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| 16 |
Processing the acoustic effect of size in speech sounds
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In: NEUROIMAGE , 32 (1) 368 - 375. (2006) (2006)
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| 17 |
Human brain mechanisms for the early analysis of voices
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In: NEUROIMAGE , 31 (3) 1389 - 1397. (2006) (2006)
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Abstract:
In this functional magnetic resonance imaging study, we investigated human brain mechanisms that are involved in the analysis of voices as sound sources and in the pre-semantic analysis of voice information. The source of the voice was altered by changing the speaker, and the salience of the voice was altered by changing the amount of spectrotemporal detail. We identified a mechanism for detecting a change in the source of the voice in the posterior superior temporal lobe and anatomically distinct mechanisms for the detailed analysis of voice information in a bilateral network extending from the posterior to the anterior superior temporal lobe surrounding the superior temporal sulcus. The findings are consistent with a processing hierarchy in which general source attributes are analyzed in the posterior superior temporal lobe, abstraction of voice identity features occurs in posterior superior temporal sulcus, and further analysis of voice information occurs in anterior superior temporal sulcus and higher order cortices in the middle and anterior temporal lobe. (c) 2006 Elsevier Inc. All rights reserved.
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Keyword:
FUNCTIONAL-ANATOMY; HUMAN AUDITORY-CORTEX; IDENTIFICATION; PERCEPTION; PLANUM TEMPORALE; RECOGNITION; SOUNDS; SPEECH; TEMPORAL-LOBE; WORKING-MEMORY
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URL: http://discovery.ucl.ac.uk/136335/
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| 18 |
Processing the acoustic effect of size in speech sounds.
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In: Neuroimage , 32 (1) 368 - 375. (2006) (2006)
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| 19 |
The planum temporale as a computational hub
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In: TRENDS NEUROSCI , 25 (7) 348 - 353. (2002) (2002)
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| 20 |
Core auditory processing deficits in primary progressive aphasia
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In: Brain
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