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Enteric Bioelectronics for Sensing and Stimulating the CNSbroad

EnterBio · Horizon Europe grant · 2024-03-01–2028-02-29

EC contribution

€2,634,485

Total cost

€2,634,485

Beneficiaries

7
About the data

Source: CORDIS (official EU open data), Horizon Europe. Framework HORIZON · call HORIZON-EIC-2023-PATHFINDEROPEN-01 · scheme HORIZON-EIC · topic HORIZON-EIC-2023-PATHFINDEROPEN-01-01. CORDIS record →

Objective

Therapies for neurological disorders often involve deeply invasive brain operations or implants. A largely overlooked aspect of these conditions is the high comorbidity of GI-related disorders. Although the top-down relationship between the brain and peripheral organs has dominated the field, it’s now clear that activity of peripheral organs, in particular GI innervation – the enteric nervous system (ENS) – not only influences brain activity, but also paces and regulates it. Indeed, recent studies have shown the bidirectional relationship between gut homeostasis and neurological function in disorders such as epilepsy, Alzheimer’s, and Parkinson’s.EnterBio will adapt bioelectronic tools developed over the past decades for application in the CNS for sensing and stimulating the ENS, and thereby sensing and stimulating the CNS. The team comprises world-leading expertise in organic and graphene bioelectronics, drug delivery, in vitro/animal models of neurodegenerative disorders, and molecular/ cellular physiology of the PNS. We propose to turn this expertise toward the ENS to develop a platform for elucidation, prediction, and control of CNS function. Objectives are to:– Develop bioelectronic sensors, stim. electrodes, and drug deliv. targeting ENS and adapted for implantation in the gut – Elucidate ENS control of CNS using high-res sensing signals in vivo– Demonstrate control & eventual therapy for CNS disorders without highly invasive implantsEnterBio proposes to build on new, cutting-edge directions (organic/carbon-based bioelectronics and the gut-brain axis) to disrupt the field of CNS sensing/neuromodulation as technology to utilize ENS activity as an entry point to brain (dys)function is lacking. “Entering the bio” through the gut will be exactly this disruptor. EnterBio will achieve substantial improvements in relation to the barriers and obstacles of today’s sensing/neuromodulation technologies.

Beneficiaries (7)

OrganisationCountryRoleEC contributionSME
LINKOPINGS UNIVERSITET SE coordinator €1,333,300
UNIVERSITE D'AIX MARSEILLE FR participant €636,435
IDRYMA TECHNOLOGIAS KAI EREVNAS EL participant €559,250
OBOE IPR AB SE participant €105,500 Yes
INSTITUT NATIONAL DE LA SANTE ET DE LA RECHERCHE MEDICALE FR thirdParty €0
PROTISVALOR MEDITERRANEE SAS FR thirdParty €0
THE CHANCELLOR MASTERS AND SCHOLARS OF THE UNIVERSITY OF CAMBRIDGE UK associatedPartner

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