COMPUTER-AIDED EFFECTIVE FRACTURE RISK STRATIFICATION OF PATIENTS WITH VERTEBRAL METASTASES FOR PERSONALISED TREATMENT THROUGH ROBUST COMPUTATIONAL MODELS VALIDATED IN CLINICAL SETTINGS

HealthHORIZON-RIAID: 101080135
EC Contribution
€50,877
Consortium Size
16 orgs
Start Year
2023
Summary

Cancer patients (2.7M in Europe) with a positive prognosis are exposed to a high incidence of secondary tumours (≈1M). Bone metastases spread to the spine in 30-70% cases, reducing the load bearing capacity of the vertebrae and triggering fracture in 30% cases. Clinicians have only two options: either operate to stabilise the spine, or leave the patient exposed to a high fracture risk. The decision is highly subjective and can either lead to unnecessary surgery, or a fracture significantly affecting the quality of life and cancer treatment.The standard-of-care to classify patients with vertebral metastasis are scoring systems based on radiographic images, with little consideration of the local biomechanics. Current scoring systems are unable to establish an indication for surgery in around 60% of cases. Thus, there is an unmet need to accurately and timely quantify the risk of fracture to improve patient stratification and identify the best personalised treatment.This interdisciplinary project will develop Artificial Intelligence (AI)- and Physiology-based (VPH) biomechanical computational models to stratify patients with spine metastasis who are at high risk of fracture and to identify the best personalised surgical treatment. After rigorous model training with clinical (2000 retrospective cases) and biomechanical (120 ex vivo specimens) data, the new approach will be tested in a multicentric prospective observational study (200 patients). The models will be combined in a decision support system (DSS) enabling clinicians to successfully stratify metastatic patients. The models and the DSS will be designed so as to be suitable for regulatory requirements and future exploitation.METASTRA will propose new guidelines for the stratification and management of metastatic patients. METASTRA approach is expected to cut the uncertain diagnoses from the current 60% down to 20% of cases. This will reduce patient suffering, and allow cutting expenditure by 2.4B€/year.

Consortium (16)

Project Results (15)

Source: CORDIS, the EU research results database.

Publications (7)
Degeneration of the nucleus pulposus affects the internal volumetric strains and failure location of adjacent human metastatic vertebral bodies
Acta Biomaterialia· 2025DOI
Giulia Cavazzoni, Margherita Pasini, Christine L. Le Maitre, Enrico Dall'Ara, Marco Palanca
Microstructure of the human metastatic vertebral body
Frontiers in Endocrinology· 2025DOI
Giulia Cavazzoni, Enrico Dall’Ara, Marco Palanca
Experimental ex vivo characterization of the biomechanical effects of laminectomy and posterior fixation of the lumbo-sacral spine
Scientific Reports· 2024DOI
Sara Montanari, Giovanni Barbanti Bròdano, Elena Serchi, Rita Stagni, Alessandro Gasbarrini, Alfredo Conti, Luca Cristofolini
Identification of a lumped-parameter model of the intervertebral joint from experimental data
Frontiers in Bioengineering and Biotechnology· 2024DOI
Samuele L. Gould, Giorgio Davico, Marco Palanca, Marco Viceconti, Luca Cristofolini
METASTRA: COMPUTER-AIDED EFFECTIVE FRACTURE RISK STRATIFICATION OF PATIENTS WITH VERTEBRAL METASTASES FOR PERSONALIZED TREATMENT THROUGH ROBUST COMPUTATIONAL MODELS VALIDATED IN CLINICAL SETTINGS
Orthopaedic Proceedings· 2024DOI
L. Cristofolini, B. B. bròdano, E. Dall’Ara, R. Ferenc, S. J Ferguson, J. M. García-Aznar, A. Lazary, P. Vajkoczy, Jorrit-Jan Verlaan, L. Vidacs
Modelo paramétrico en 3D de elementos finitos para la simulación mecánica de vértebras con lesiones metastásicas
Jornada de Jóvenes Investigadores del I3A· 2024DOI
Jaime Muñoz Allué, José Manuel García Aznar, Mª Ángeles Pérez Ansón
Variability of intervertebral joint stiffness between specimens and spine levels
Frontiers in Bioengineering and Biotechnology· 2024DOI
Samuele L. Gould, Giorgio Davico, Christian Liebsch, Hans-Joachim Wilke, Luca Cristofolini, Marco Viceconti
Deliverables (7)
Other Results (1)
Periodic Reporting for period 1 - METASTRA (COMPUTER-AIDED EFFECTIVE FRACTURE RISK STRATIFICATION OF PATIENTS WITH VERTEBRAL METASTASES FOR PERSONALISED TREATMENT THROUGH ROBUST COMPUTATIONAL MODELS VALIDATED IN CLINICAL SETTINGS)