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UK funding (£410,586): When and where do you know what you know? fMRI-guided MEG and TMS studies of semantic cognition Ukri28 May 2012 UK Research and Innovation, United Kingdom
Overview
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When and where do you know what you know? fMRI-guided MEG and TMS studies of semantic cognition
| Abstract | This project investigates the biological basis of semantic cognition, which refers to our ability to (i) assign meaning to everything we see, hear, read, smell and taste, and (ii) use this knowledge in a way that is appropriate to the task or context. This underpins our ability to communicate with people, recognise signs, gestures, faces etc, and use objects in an appropriate way. Because of its relevance for everyday reasoning and behaviour, substantial research effort has been directed towards delineating the brain areas that support semantic cognition. Previous work has shown that semantic representation and control processes are not localised to a single brain area but rely on a set of distributed, interconnected regions. Despite this progress, little is currently known about how meaning retrieval emerges from interactions between these distributed brain areas. This important question is the focus of our project. The project takes advantage of recent advances within neuroscience methodology, draws together a group of investigators with expertise in multiple methods, and builds on recent advances in our understanding of semantic representation and control, as well as behavioural methods that tap these components. We make use of three complementary neuroscience techniques, each with unique strengths. Time-sensitive magnetoencephalography (MEG) recordings will be used to capture the spread of activation across the network, which allow us to infer patterns of communication between brain areas. We will then disrupt neural processing at specific time points and locations (via transcranial magnetic stimulation; TMS) to validate the MEG results. To increase spatial accuracy in both analyses, we will also acquire high-resolution images from functional neuroimaging (fMRI). In the first part of our proposal, we use temporal information from MEG to define how long it takes for meaning to emerge (e.g., after a word has been presented) and what kind of knowledge is necessary. Recent MEG findings suggest that semantic processing involves a rapid forward sweep of activation from sensory to amodal semantic areas. When we access concepts, we also activate sensory-specific information (e.g., information about what the concept looks like and how it moves); however, we currently have little knowledge of when this sensory-specific information is integrated with amodal knowledge, in order to activate the full concept. We also use TMS to disrupt the function of specific brain areas at particular points in time, to establish when sites within the network make a necessary contribution to semantic cognition. The second aim of our study is to explore the neural network underpinning semantic control - i.e., the mechanisms that allow us to focus on relevant aspects of knowledge and ignore other information. Our previous findings suggest that activation in the semantic network is highly flexible and task-specific and that different aspects of semantic control may involve different subsets of brain areas (e.g., tonic top-down influences vs. stimulus-driven bottom-up control). With MEG, we can gain new insights into these control processes by describing the order in which activity flows between sites and how the timing/duration of activation differs across semantic control manipulations. Moreover, we can assess, for the first time, the impact of semantic control demands on brain areas that store semantic knowledge: amodal concepts may be activated later or for longer in control-demanding situations, and sensory-specific regions may be strategically recruited by specific tasks. In addition to advancing biological models of semantic cognition, our project has broader implications. It will demonstrate the power of combined MEG/fMRI/TMS studies for advancing our knowledge of the biological basis of cognitive functions. In the future, it could augment our understanding, diagnosis and treatment of patients with disorders of semantic cognition. |
| Category | Research Grant |
| Reference | BB/J006963/1 |
| Status | Closed |
| Funded period start | 28/05/2012 |
| Funded period end | 30/11/2015 |
| Funded value | £410,586.00 |
| Source | https://gtr.ukri.org/projects?ref=BB%2FJ006963%2F1 |
Participating Organisations
| University of York |
The filing refers to a past date, and does not necessarily reflect the current state. The current state is available on the following page: University of York Chaplaincy Centre, York.
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