Summary
The overall goal of this project is to develop a radically new diagnostic and therapeutic device for neurological applications which combines a highly innovative ultrasound component for brain imaging and focused stimulation of brain regions with advanced electrophysiological measurements of neural activity.
First goal of the project is the development of a novel ultrasound (US)-based functional imaging method that, in conjunction with electroencephalography (EEG), allows for high spatiotemporal resolution examination of brain activity. While EEG itself yields best data from neural tissue close to the skull, the US component is designed to deliver images from deeper brain regions.
The second pillar of the device’s function is focused US brain stimulation. Based on the possibility to localize abnormal activity, the neuromodulation component of the novel device can be guided to focal stimulation of selected brain regions, which can be further developed into a closed-loop design. The full envisioned system is a versatile tool that combines EEG-sensors and US transceivers in a wearable headset. The project foresees the development of hard- and software as well as algorithms to integrate the information from both modalities into functional neuroimaging with unpreceded spatiotemporal resolution.
Beyond the technical realization, this project includes a proof of concept study to evaluate and demonstrate practical applicability in healthy participants and in patients with epilepsy, during clinical routine examination, cognitive, and sensory stimulation, including test-retest validation. The new device will reduce the time to examine and treat neurological patients and the cost thereof. The ability to perform better diagnosis via accurate imaging, targeted neurostimulation, and neuromodulation with a cost-effective, non-invasive device will have transformative effects on treatment options for neurological diseases and stimulate new lines of research in cognitive neuroscience
First goal of the project is the development of a novel ultrasound (US)-based functional imaging method that, in conjunction with electroencephalography (EEG), allows for high spatiotemporal resolution examination of brain activity. While EEG itself yields best data from neural tissue close to the skull, the US component is designed to deliver images from deeper brain regions.
The second pillar of the device’s function is focused US brain stimulation. Based on the possibility to localize abnormal activity, the neuromodulation component of the novel device can be guided to focal stimulation of selected brain regions, which can be further developed into a closed-loop design. The full envisioned system is a versatile tool that combines EEG-sensors and US transceivers in a wearable headset. The project foresees the development of hard- and software as well as algorithms to integrate the information from both modalities into functional neuroimaging with unpreceded spatiotemporal resolution.
Beyond the technical realization, this project includes a proof of concept study to evaluate and demonstrate practical applicability in healthy participants and in patients with epilepsy, during clinical routine examination, cognitive, and sensory stimulation, including test-retest validation. The new device will reduce the time to examine and treat neurological patients and the cost thereof. The ability to perform better diagnosis via accurate imaging, targeted neurostimulation, and neuromodulation with a cost-effective, non-invasive device will have transformative effects on treatment options for neurological diseases and stimulate new lines of research in cognitive neuroscience
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101099210 |
| Start date: | 01-03-2023 |
| End date: | 28-02-2027 |
| Total budget - Public funding: | 2 998 988,75 Euro - 2 998 988,00 Euro |
Cordis data
Original description
The overall goal of this project is to develop a radically new diagnostic and therapeutic device for neurological applications which combines a highly innovative ultrasound component for brain imaging and focused stimulation of brain regions with advanced electrophysiological measurements of neural activity.First goal of the project is the development of a novel ultrasound (US)-based functional imaging method that, in conjunction with electroencephalography (EEG), allows for high spatiotemporal resolution examination of brain activity. While EEG itself yields best data from neural tissue close to the skull, the US component is designed to deliver images from deeper brain regions.
The second pillar of the device’s function is focused US brain stimulation. Based on the possibility to localize abnormal activity, the neuromodulation component of the novel device can be guided to focal stimulation of selected brain regions, which can be further developed into a closed-loop design. The full envisioned system is a versatile tool that combines EEG-sensors and US transceivers in a wearable headset. The project foresees the development of hard- and software as well as algorithms to integrate the information from both modalities into functional neuroimaging with unpreceded spatiotemporal resolution.
Beyond the technical realization, this project includes a proof of concept study to evaluate and demonstrate practical applicability in healthy participants and in patients with epilepsy, during clinical routine examination, cognitive, and sensory stimulation, including test-retest validation. The new device will reduce the time to examine and treat neurological patients and the cost thereof. The ability to perform better diagnosis via accurate imaging, targeted neurostimulation, and neuromodulation with a cost-effective, non-invasive device will have transformative effects on treatment options for neurological diseases and stimulate new lines of research in cognitive neuroscience
Status
SIGNEDCall topic
HORIZON-EIC-2022-PATHFINDEROPEN-01-01Update Date
31-07-2023
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Organisations
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| FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V. (Coördinator)
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| G.TEC MEDICAL ENGINEERING GMBH
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| GEMEINNUTZIGE SALZBURGER LANDESKLINIKEN BETRIEBSGESELLSCHAFT
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| HASKOLINN A AKUREYRI
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| MEDIRI GMBH
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| PERCUROS BV
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| UNIVERSITA DEGLI STUDI DI ROMA LA SAPIENZA
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| UNIVERSITA DEGLI STUDI DI ROMA TOR VERGATA