Summary
Visual working memory (VWM) is the cognitive process responsible for temporarily maintaining in mind visual information that is no longer in view. The neural architecture of VWM has been of continuous scientific interest and it has been proposed that the sensory visual cortex is involved in the brain network responsible for successful REpresentation STOragE during VWM. However, the contribution of the sensory visual cortex in VWM remains a subject of intense debate, underscoring the need for a decisive investigation. RESTORE aims to shed light on this debate. Through a three-way transfer of knowledge, RESTORE will lead to contemporary methodology, by combining transcranial magnetic stimulation (TMS) with electroencephalography (EEG), resulting in a robust and cost-effective approach for studying VWM. By combining TMS with EEG, RESTORE will surmount the limitations of previous work (e.g., the correlational nature of brain-imaging studies, the lack of evidence for neural activity in brain-stimulation studies) and thus result in causal evidence for the role of the sensory visual cortex during VWM. This scientific leap will not only resolve a longstanding controversy but also introduce an efficient approach for conducting neuroscientific research, hence contributing to the literature and advancing the current state-of-the-art. In addition, RESTORE will enhance the expertise repertoire of the researcher and the participating organisations. In turn, this will establish a strong foundation for pursuing ambitious and innovative research in the future, as well as provide knowledge and skills for training future researchers in contemporary research. RESTORE's innovative integration of TMS and EEG aims to decisively illuminate the longstanding debate about the role of the sensory visual cortex in VWM and lays a solid groundwork for future ambitious investigations, while fostering expertise and knowledge transfer for the next generation of researchers.
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| Web resources: | https://cordis.europa.eu/project/id/101146138 |
| Start date: | 01-09-2025 |
| End date: | 31-08-2028 |
| Total budget - Public funding: | - 252 968,00 Euro |
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Original description
Visual working memory (VWM) is the cognitive process responsible for temporarily maintaining in mind visual information that is no longer in view. The neural architecture of VWM has been of continuous scientific interest and it has been proposed that the sensory visual cortex is involved in the brain network responsible for successful REpresentation STOragE during VWM. However, the contribution of the sensory visual cortex in VWM remains a subject of intense debate, underscoring the need for a decisive investigation. RESTORE aims to shed light on this debate. Through a three-way transfer of knowledge, RESTORE will lead to contemporary methodology, by combining transcranial magnetic stimulation (TMS) with electroencephalography (EEG), resulting in a robust and cost-effective approach for studying VWM. By combining TMS with EEG, RESTORE will surmount the limitations of previous work (e.g., the correlational nature of brain-imaging studies, the lack of evidence for neural activity in brain-stimulation studies) and thus result in causal evidence for the role of the sensory visual cortex during VWM. This scientific leap will not only resolve a longstanding controversy but also introduce an efficient approach for conducting neuroscientific research, hence contributing to the literature and advancing the current state-of-the-art. In addition, RESTORE will enhance the expertise repertoire of the researcher and the participating organisations. In turn, this will establish a strong foundation for pursuing ambitious and innovative research in the future, as well as provide knowledge and skills for training future researchers in contemporary research. RESTORE's innovative integration of TMS and EEG aims to decisively illuminate the longstanding debate about the role of the sensory visual cortex in VWM and lays a solid groundwork for future ambitious investigations, while fostering expertise and knowledge transfer for the next generation of researchers.Status
SIGNEDCall topic
HORIZON-MSCA-2023-PF-01-01Update Date
20-09-2024
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