Integrating AI in Stroke Neurorehabilitation

HORIZON.2.1HORIZON-RIAID: 101057655
EC Contribution
€59,409
Consortium Size
18 orgs
Summary

Health services are increasingly moving towards a treatment continuum aligned with the patient journey. This transition will critically depend on the successful deployment of trustworthy AI-enhanced technologies that are accurate, secure, and trusted. The AISN project will develop and validate operating procedures and guidelines for integrating AI in a healthcare continuum, focussing on post-stroke rehabilitation. AISN delivers a representative AI health platform built from integrating validated platforms for data acquisition and access, clinical interpretation, whole-brain simulation, clinically validated intervention delivery and optimization and model-based prediction. The AISN integrated platform will be validated in the clinical context of rehabilitation in the outpatient and at-home phase and facilitate a concrete assessment of the fundamental ways in which AI-enhanced clinical decision-support will change the care pathway and the formulation of novel AI compatible treatment guidelines. AISN ensures an ethical approach by developing legal and ethical guidelines for the robust, fair, and trustworthy deployment of AI in health and validating acceptance and transparency of its solutions. Building on the AISN platform, the project will test current standard operating procedures for integrating AI in health care and formulate and validate new ones where needed. The AISN guidelines and procedures will emphasize the evidence base and safety of clinical interventions, transparency, prognostics at varying time-scales, personalization of interventions, access to disease-specific information by clinicians, patients and their carers, and assure that the potential of AI is fully developed in the service of value-based medicine satisfying standards of security and safety. We will go beyond currently available guidelines and frameworks by emphasizing explainability, AI tools with evolving performance, and the dynamic interaction between users and algorithms.

Consortium (18)

Project Results (22)

Source: CORDIS, the EU research results database.

Publications (18)
Using an ordinary differential equation model to separate rest and task signals in fMRI
Nature Communications· 2025DOI
Amrit Kashyap, Eloy Geenjaar, Patrik Bey, Kiret Dhindsa, Katharina Glomb, Sergey Plis, Shella Keilholz, Petra Ritter
Which AI doctor would you like to see? Emulating healthcare provider–patient communication models with GPT-4: proof-of-concept and ethical exploration
Journal of Medical Ethics· 2025DOI
Zohny, H; Allen, JW; Wilkinson, D; Savulescu, J
A lesion‐aware automated processing framework for clinical stroke magnetic resonance imaging
Human Brain Mapping· 2024DOI
Bey, Patrik; Dhindsa, Kiret; Kashyap, Amrit; Schirner, Michael; Feldheim, Jan; Bönstrup, Marlene; Schulz, Robert; Cheng, Bastian; Thomalla, Götz; Gerloff, Christian; Ritter, Petra
A multiscale inflammatory map: linking individual stress to societal dysfunction
Frontiers in Science· 2024DOI
Yoram Vodovotz; Yoram Vodovotz; Julia Arciero; Paul F. M. J. Verschure; David L. Katz; David L. Katz
Excitatory-inhibitory homeostasis and bifurcation control in the Wilson-Cowan model of cortical dynamics
PLOS Computational Biology· 2024DOI
Francisco Páscoa dos Santos; Paul FMJ Verschure
Homeodynamic feedback inhibition control in whole-brain simulations
PLOS Computational Biology· 2024DOI
Jan Stasinski; Halgurd Taher; Jil Mona Meier; Michael Schirner; Dionysios Perdikis; Petra Ritter
Human connectome topology directs cortical traveling waves and shapes frequency gradients
Nature Communications· 2024DOI
Dominik P. Koller, Michael Schirner & Petra Ritter
Metastable Dynamics Emerge from Local Excitatory-Inhibitory Homeostasis in the Cortex at Rest
Network Neuroscience· 2024DOI
Francisco Páscoa dos Santos; Paul F. M. J. Verschure
Redefining stroke rehabilitation: Mobilizing the embodied goal-oriented brain
Current Opinion in Neurobiology· 2024DOI
Paul F.M.J. Verschure, Francisco Páscoa dos Santos, Vivek Sharma
Sharing brain imaging data in the Open Science era: how and why?
The Lancet Digital Health· 2024DOI
Giehl, Mutsaerts, Aarts, Barkhof, Caspers, Chetelat, Colin, Düzel, Frisoni, Ikram, Jovisich, Morbelli, Oertel, Paret, Perani, Ritter, Segura, Wisse, De Witte, Cappa, van Eimeren
When Two Become One: Singular Duos and the Neuroethical Frontiers of Brain-to-Brain Interfaces
Cambridge Quarterly of Healthcare Ethics· 2024DOI
Zohny, H; Savulescu, J
A deep learning approach to estimating initial conditions of Brain Network Models in reference to measured fMRI data
Frontiers in Neuroscience· 2023DOI
Amrit Kashyap, Amrit Kashyap, Sergey Plis, Petra Ritter, Petra Ritter, Shella Keilholz
Current Opinion in Neurobiology
Current Opinion in Neurobiology· 2023DOI
Paul F.M.J. Verschure; Francisco Páscoa dos Santos; Vivek Sharma
Learning how network structure shapes decision-making for bio-inspired computing
Nature Communications· 2023DOI
Schirner, M., Deco, G. & Ritter, P.
Patient-specific modeling for guided rehabilitation of stroke patients: the BrainX3 use-case
Frontiers in Neurology· 2023DOI
Vivek Sharma, Francisco Páscoa dos Santos, Paul F. M. J. Verschure
Redefining stroke rehabilitation: Mobilizing the embodied goal-oriented brain
Current Opinion in Neurobiology· 2023DOI
Paul F.M.J. Verschure, Francisco Páscoa dos Santos, Vivek Sharma
Virtual brain simulations reveal network-specific parameters in neurodegenerative dementias
Frontiers in Aging Neuroscience· 2023DOI
Monteverdi A, Palesi F, Schirner M, Argentino F, Merante M, Redolfi A, Conca F, Mazzocchi L, Cappa SF, Cotta Ramusino M, Costa A, Pichiecchio A, Farina LM, Jirsa V, Ritter P, Gandini Wheeler-Kingshott CAM and D’Angelo E
Multiscale effects of excitatory-inhibitory homeostasis in lesioned cortical networks: A computational study
PLOS Computational Biology· 2022DOI
Francisco Páscoa dos Santos; Jakub Vohryzek; Paul F.M.J. Verschure
Deliverables (3)
Documents, reports
Websites, patent fillings, videos etc.
Websites, patent fillings, videos etc.
Other Results (1)
Periodic Reporting for period 1 - AISN (Integrating AI in Stroke Neurorehabilitation)