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User-centred smart nanobiomaterial-based 3D matrices for chondral repair

Description du projet

Une nanotechnologie susceptible de ralentir la progression de l’arthrose

Les lésions chondrales qui ne sont pas traitées, ou qui le sont insuffisamment, ont de fortes chances d’évoluer vers l’arthrose, dont souffrent 242 millions de personnes dans le monde. Le projet RESTORE, financé par l’UE, développe une approche efficace du traitement des lésions chondrales du genou. Rassemblant des chirurgiens orthopédistes, des ingénieurs tissulaires, des spécialistes des matériaux, des biologistes cellulaires et des entreprises, le projet prévoit de mettre au point une nouvelle génération de matrices 3D intelligentes à nanocapacités qui peuvent s’adapter à la géométrie complexe des lésions, moduler les événements biologiques indésirables ainsi que contrôler, stimuler et surveiller à distance la réparation du cartilage. RESTORE comblera les lacunes des solutions thérapeutiques actuelles, en permettant d’éviter ou de retarder l’apparition de l’arthrose.

Objectif

The RESTORE project aims at developing an effective approach to manage the specific unmet clinical needs to treat knee chondral lesions. RESTORE, built upon the consortium’s proofs-of-concept and discussions between orthopaedic surgeons, tissue engineers, material scientists, cell biologists and SMEs, will realize a new generation of smart nanoenabled 3D matrices able to fit into complex lesion geometry, modulate undesirable biological events, and remotely control, stimulate and monitor cartilage repair. To create smart and functional 3D matrices, RESTORE will develop (i) nanobiomaterial-based nanocarriers to modulate inflammatory, cartilage extracellular matrix degradation and infection threats, (ii) stimuli-responsive nanobiomaterials tuned via external physical stimulus using radiofrequency and electromagnetic fields, and (iii) non-invasive wearable and wireless device for remote stimulus and regeneration monitoring. The nanobiomaterials will be integrated into cutting-edge 3D matrices that meet the needs of severe and mild chondral lesions: 1) the COPLA Scaffold commercialised since 2017 for animal health use and 2) 3D cartilage microtissues engineered via 3D bioprinting of iPS cells in a nanocellulose and alginate bioink. The technology development in RESTORE will reach TRL5 and enable substantial clinical advances in regenerative medicine. Untreated or not-correctly treated chondral lesions are likely to progress towards osteoarthritis (OA), which affects 242 million people globally (costs/patient/year: 10,452€). RESTORE will address the shortfalls of current therapeutic solutions while aiming to reduce the overall burden of OA. RESTORE’s outcomes hold high exploitation and commercial potential to boost the competitiveness of European companies, striving to diminish or delay the onset of OA, reducing hospitalization, number of surgeon interventions and time off work, thus leading to more cost-efficient health care and promote wellbeing and active ageing.

Appel à propositions

H2020-NMBP-TR-IND-2018-2020

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Sous appel

H2020-NMBP-TR-IND-2018

Coordinateur

INEB-INSTITUTO NACIONAL DE ENGENHARIA BIOMEDICA
Contribution nette de l'UE
€ 933 243,45
Adresse
RUA ALFREDO ALLEN 208
4200 135 Porto
Portugal

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Région
Continente Norte Área Metropolitana do Porto
Type d’activité
Research Organisations
Liens
Coût total
€ 933 243,45

Participants (11)