While a long history of neuropsychological research places language function within a primarily left-lateralized frontotemporal system, recent neuroimaging work has extended this language network to include a number of regions traditionally thought of as 'domain-general'. These include dorsal frontal, parietal, and medial temporal lobe regions known to underpin cognitive functions such as attention and memory. In this paper, we argue that these domain-general systems are not required for language processing and are instead an artefact of the tasks typically used to study language. Recent work from our lab shows that when syntactic processing - arguably the only domain-specific language function - is measured in a task-free, naturalistic man...
This dissertation proposes that the frontotemporal network involved in the neural substrate of langu...
AbstractRecent brain imaging studies have provided evidence that distinct parts of the left frontal ...
Understanding the different neural networks that support human language is an ongoing challenge for ...
Available online 19 August 2019.Language comprehension relies on a multitude of domain-general and d...
Language comprehension relies on a multitude of domain-general and domain-specific cognitive operati...
Language processing is a trait of human species. The knowledge about its neurobiological basis has b...
Functional neuroimaging studies have highlighted the roles of three networks in processing language,...
The human capacity for language is best described as a biologically determined computational mechani...
Language processing is supported by different regions located in separate parts of the brain. A cruc...
In recent decades, neuroimaging studies on the neural infrastructure of language are usually (or mos...
Language processing engages large-scale functional networks in both hemispheres. Although it is wide...
Language-related areas within frontal, parietal and temporal cortices are organized in dorsal and ve...
Language serves as a cornerstone of human cognition. However, our knowledge about its neural basis i...
The meaning of a sentence can be understood, whether presented in written or spoken form. Therefore ...
Current research suggests that language comprehension engages two joint but functionally distinguish...
This dissertation proposes that the frontotemporal network involved in the neural substrate of langu...
AbstractRecent brain imaging studies have provided evidence that distinct parts of the left frontal ...
Understanding the different neural networks that support human language is an ongoing challenge for ...
Available online 19 August 2019.Language comprehension relies on a multitude of domain-general and d...
Language comprehension relies on a multitude of domain-general and domain-specific cognitive operati...
Language processing is a trait of human species. The knowledge about its neurobiological basis has b...
Functional neuroimaging studies have highlighted the roles of three networks in processing language,...
The human capacity for language is best described as a biologically determined computational mechani...
Language processing is supported by different regions located in separate parts of the brain. A cruc...
In recent decades, neuroimaging studies on the neural infrastructure of language are usually (or mos...
Language processing engages large-scale functional networks in both hemispheres. Although it is wide...
Language-related areas within frontal, parietal and temporal cortices are organized in dorsal and ve...
Language serves as a cornerstone of human cognition. However, our knowledge about its neural basis i...
The meaning of a sentence can be understood, whether presented in written or spoken form. Therefore ...
Current research suggests that language comprehension engages two joint but functionally distinguish...
This dissertation proposes that the frontotemporal network involved in the neural substrate of langu...
AbstractRecent brain imaging studies have provided evidence that distinct parts of the left frontal ...
Understanding the different neural networks that support human language is an ongoing challenge for ...