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Biohybrid Synapses for Interactive Neuronal Networks

Descripción del proyecto

Dispositivos biohíbridos para estudiar las sinapsis neuronales

Diversos trastornos neurodegenerativos se deben a fallos en las conexiones neuronales del encéfalo, lo que ocasiona errores en la comunicación neuronal. Con el fin de estudiar la actividad eléctrica y la conectividad de las redes neuronales, la iniciativa financiada con fondos europeos BRAIN-ACT busca desarrollar dispositivos biohíbridos interactivos que emparejen las redes neuronales biológicas con neuronas artificiales orgánicas. Los dispositivos generados incorporarán materiales electroactivos y permitirán por primera vez que las neuronas interactúen con el dispositivo. Los resultados ofrecerán una información importante sobre la plasticidad y el comportamiento dinámico de las sinapsis, lo que allanará el camino para el uso de dispositivos neuromórficos como materiales implantables en el encéfalo.

Objetivo

BRAIN-ACT aims to develop the next generation of interactive biohybrid devices which will couple biological neuronal networks to organic artificial neurons. For the first time, neurons will interact with the device by active mechanical reshaping which will transduce in the maintenance of the electrical network connection strength (long term potentiation –LTP). This will be achieved by a) processing dynamic electroactive materials b) engineering the neuromorphic abiotic surface with biological synaptic receptors and c) intergrate an in vitro biohybrid synapses array to investigate the interplay at the interface between neuronal cells and their synaptic activity with dynamic electrically-smart materials.
BRAIN-ACT will pave the way for a new class of chip-based smart bioelectronic devices which will ‘have a shape of a neuron and act like a neuron’.
Over 10 million people are affected by neurodegenerative diseases like Parkinson’s and Alzheimer’s worldwide and show significant loss of functionalities in their daily life. Those are mainly related to faulty connections within the brain which reflects neuronal miscommunication regulated by billions of individual connections among pairs called synapses. The ability of synapses to strengthen or weaken over time, in response to increases or decreases in their activity is called synaptic plasticity and is regulated through electrical and biomechanical signals exchanged by neurons pairs. In vitro bioelectronic platforms have been devoted to monitor and stimulate those signals across neuronal network areas to characterize electrical activity and connectivity in a passive manner.
BRAIN-ACT will revolutionize the study of in vitro neuronal networks through active mechanical reshaping to establish optimal electrical signal exchange among neuronal cells. More broadly, the proposed project will define the fundamental conditions to unleash the potential of neuromorphic devices as implantable materials in to the brain.

Régimen de financiación

ERC-STG - Starting Grant

Institución de acogida

FORSCHUNGSZENTRUM JULICH GMBH
Aportación neta de la UEn
€ 1 166 649,50
Dirección
WILHELM JOHNEN STRASSE
52428 Julich
Alemania

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Región
Nordrhein-Westfalen Köln Düren
Tipo de actividad
Research Organisations
Enlaces
Coste total
€ 1 166 649,50

Beneficiarios (3)