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EU funding (€6,453,741): Multi-functional hydrogels for promoting bone fracture healing through local induced release of pharmaceutical agents and gradual matrix replacement by the regenerating bone Hor23 May 2025 EU Research and Innovation programme "Horizon"
Overview
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Multi-functional hydrogels for promoting bone fracture healing through local induced release of pharmaceutical agents and gradual matrix replacement by the regenerating bone
Bone atrophy and fractures, resulting from trauma, infections, osteoporosis, or cancer, are global health concerns. Standard care with cement and bone grafts has limitations. Synthetic polymers like polymethyl methacrylate risk leakage, spinal issues, and poor healing. Donor shortages for allogenic bone grafting and invasive procedures pose risks such as rejection and viral transmission. HYDROHEAL innovates with hydrogel formulations to address bone strength challenges by treating vertebral and alveolar fractures. HYDROHEAL aims to develop safe, sustainable scaling, and cost-effective formulations using renewable biomaterials for targeted drug delivery, aligning closely with the EU Circular Economy Action Plan and Chemicals Strategy for Sustainability. It is ready to introduce a new era in fracture therapy. The proposed self-solidifying hydrogels release active pharmaceutical ingredients locally upon external stimulation, potentially improving treatment efficacy, preventing infections, and speeding up fracture healing. The objectives of the project are: 1. Develop novel injectable hydrogel formulations combining natural substance derivates to enhance healing, inhibit bacterial growth, and monitor therapy progress in vivo. 2. Simultaneously manufacture carriers as micro- and nano-particles, surface-functionalized to incorporate pharmaceutical agents, releaseable upon external stimuli for tailored drug release. 3. Validate safe and optimized hydrogel formulations for treating vertebral and alveolar bone fractures through in vitro and in vivo tests. 4. Demonstrate scalable and sustainable biomaterial manufacturing through safe design methods, machine learning, and predictive life cycle assessment. 5. Develop machine learning and hybrid digital modeling methods, combining adaptive design of experiments and physics-based modeling with advanced characterization techniques.
Funded Companies:
| Company name | Funding amount |
| Asphalion SL | €195,563 |
| Centre for Process Innovation Ltd. LBG | €893,771 |
| CONSULTECH TECHNOLOGIEBERATUNG GmbH | €391,082 |
| Fluidinova SA | €168,371 |
| Politecnico Di Torino | €787,625 |
| Royal College of Surgeons in Ireland | €416,084 |
| Separeco Srl | €176,407 |
| Sitec Pharmabio SL | €424,994 |
| Universitat Politecnica de Catalunya | €499,816 |
| Universitat Politecnica de Valencia | €891,824 |
| University of Newcastle Upon Tyne | €407,245 |
| University of Warwick | €799,860 |
| Vet EX Machina Ltd. | €401,100 |
Source: https://cordis.europa.eu/project/id/101178398
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