image-Guided computational and experimental Analysis of fractured Patients

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-DNID: 101120290
EC Contribution
€26,799
Consortium Size
13 orgs
Start Year
2023
Summary

Age-related bone fractures are a major health concern, resulting worldwide in high economic and psycho-social burden, morbidity and increasing mortality. With aging and in presence of bone pathologies, human bone becomes more brittle and prone to damage. A disruptive clinical hypothesis considers Covid-19 virus as an additional contributing factor in bone deterioration. At the macro-scale, the identification of fragility is assured by the clinical practice: common clinical tools, however, are able to predict only 70% of fractures. For this reason, a deep investigation of the bone micro-architecture would be a fundamental hint for the comprehension of damage mechanisms, improving the reliability of fracture risk indicators and performing more accurate diagnosis of bone pathologies. This knowledge level goes beyond the current state of the art and this is where GAP comes into play, providing attractive, multi-disciplinary and versatile training strategies for multi-scale comprehension, detection and patient-specific treatments of bone fractures. The over-arching aim of GAP proposal is to educate young and talented scientists towards a combined high-level experimental and numerical approach for the early-stage accurate, precise detection and mini-invasive treatments of bone fractures, shedding some light on bone micro-scale alterations due to pathologies. The inter-disciplinary findings, that exploit cutting-edge multi-scale imaging facilities and advanced artificial intelligent-based strategies, will be a crucial aspect in the training of skilled researchers and will enable Europe to overcome the silent paralysis of its healthcare system.

Consortium (13)

Project Results (14)

Source: CORDIS, the EU research results database.

Publications (7)
Exploring the Potential of ATUM-SEM for Enhanced Characterization of Human Trabecular Bone in Biomaterials Research
JOM· 2025DOI
Valeria Vistoso, Tom Ferté, Federica Buccino, Laura Vergani, Ovidiu Ersen, Adele Carradó
Integration of Multi-Scale Predictive Tools of Bone Fragility: A Structural and Material Property Perspective
Materials· 2025DOI
Muhammad Ateeq, Laura Vergani, Federica Buccino
Multifunctional in situ imaging of biological materials under load: A synchrotron-based platform for large-scale image-guided failure analysis
Materials & Design· 2025DOI
L. Clementini, F. Buccino, R. Palazzetti, E. Longo, M.Kudrna Prasek, G. Banfi, Z. Qin, L.M. Vergani
Structural influences on bone tissue engineering: A review and perspective
Matter· 2025DOI
Sara Sebastiani, Federica Buccino, Zhao Qin, Laura Maria Vergani
Sustainable silk fibroin scaffolds for bone repair: assessing their osteogenic potential via AI-enhanced synchrotron imaging workflow
Biomaterials Advances· 2025DOI
G. Dei Rossi, F. Buccino, E. Longo, G. Tromba, L.M. Vergani
Tuning mechanical response of nonuniform triangular lattice material via graph neural network based inverse design algorithm
Procedia Structural Integrity· 2025DOI
Giuseppe Bonfanti, Federica Buccino, Laura Maria Vergani, Chao Gao
Using crack face displacement to measure stress intensity: A practical approach
Theoretical and Applied Fracture Mechanics· 2025DOI
Anis Allahdiniyan, David Taylor
Deliverables (7)