SubsidieMeestersLanguage Processing in Blind Early Visual Cortex? Understanding Limits of Functional Plasticity in Human Brain
This project aims to investigate the functional plasticity of the early visual cortex in blind individuals to determine how it processes language, using advanced neuroimaging techniques.
Projectdetails
Introduction
What makes the cognitive functions always fall in the same brain niches, in people all around the world? This consistency might be driven by shared experience, characteristic of our species. Alternatively, it might be driven by genetic blueprints, predisposing certain brain areas to process specific types of information.
Research Focus
To tackle this puzzle, I want to understand the functional plasticity of the early visual cortex, genetically predisposed to process vision, in people born blind. We know that, in blind individuals, this brain region responds to language. While this discovery can be groundbreaking for our theories of brain plasticity, its theoretical implications are debated, particularly because we do not know what properties of linguistic stimuli are represented in the blind early visual cortex.
Project Objective
The project objective is to fill this gap in knowledge and disentangle two hypotheses for language processing in the early visual cortex of blind individuals:
- One hypothesis is that linguistic effects in this region are an extension of its typical visuospatial computations. This implies that this region represents linguistic stimuli through concrete, physical properties of language referents.
- An alternative possibility is that responses to language in the blind early visual cortex are driven by the development of truly abstract representation in this region. This implies that this region can represent more conceptual properties of language referents or even the linguistic properties of words and expressions themselves.
Methodology
My project will use advanced neuroimaging approaches, such as mind reading from fMRI signals and inducing virtual lesions with TMS, to thoroughly test these two hypotheses.
Expected Impact
By doing so, it will evaluate two fundamentally different perspectives on functional plasticity in the human brain and will significantly improve our understanding of how sensory experience and genetic blueprints shape the implementation of cognitive functions in this organ.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 1.340.288 |
| Totale projectbegroting | € 1.340.288 |
Tijdlijn
| Startdatum | 1-3-2025 |
| Einddatum | 28-2-2030 |
| Subsidiejaar | 2025 |
Partners & Locaties
Projectpartners
- INSTYTUT PSYCHOLOGII POLSKIEJ AKADEMII NAUKpenvoerder
Land(en)
Vergelijkbare projecten binnen European Research Council
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Using deep neural networks to understand functional specialization in the human visual cortexThis project aims to uncover the origins of functional specialization in the brain's visual pathway by integrating computational modeling, naturalistic behavior sampling, and neuroimaging. | ERC Starting... | € 1.494.750 | 2024 | Details |
Aligning Brain Rhythms: Understanding the mechanisms of cortical tracking of speech to improve language functions with real time closed-loop neurofeedbackThis project aims to identify early biomarkers for learning disabilities and enhance language processing through neuroimaging, cortical tracking of speech, and real-time neurofeedback interventions. | ERC Advanced... | € 2.500.000 | 2025 | Details |
Tracing Visual Computations from the Retina to BehaviorThis project aims to investigate how the superior colliculus integrates retinal signals to drive behavior using imaging, optogenetics, and modeling, revealing mechanisms of visual information processing. | ERC Starting... | € 1.871.465 | 2025 | Details |
Infant verbal Memory in Development: a window for understanding language constraints and brain plasticity from birthIN-MIND investigates the development of verbal memory in infants to understand its role in language learning, using innovative methods to identify memory capacities and intervention windows. | ERC Starting... | € 1.499.798 | 2022 | Details |
Gates to LanguageThe GALA project investigates the biological mechanisms of language acquisition in humans and nonhuman species to uncover why only humans can learn language. | ERC Starting... | € 1.490.057 | 2024 | Details |
Using deep neural networks to understand functional specialization in the human visual cortex
This project aims to uncover the origins of functional specialization in the brain's visual pathway by integrating computational modeling, naturalistic behavior sampling, and neuroimaging.
Aligning Brain Rhythms: Understanding the mechanisms of cortical tracking of speech to improve language functions with real time closed-loop neurofeedback
This project aims to identify early biomarkers for learning disabilities and enhance language processing through neuroimaging, cortical tracking of speech, and real-time neurofeedback interventions.
Tracing Visual Computations from the Retina to Behavior
This project aims to investigate how the superior colliculus integrates retinal signals to drive behavior using imaging, optogenetics, and modeling, revealing mechanisms of visual information processing.
Infant verbal Memory in Development: a window for understanding language constraints and brain plasticity from birth
IN-MIND investigates the development of verbal memory in infants to understand its role in language learning, using innovative methods to identify memory capacities and intervention windows.
Gates to Language
The GALA project investigates the biological mechanisms of language acquisition in humans and nonhuman species to uncover why only humans can learn language.