Subscribe     Pay Now

Sweden Project Notice - Study On The Biomechanical Mechanism Of Patient-Orthosis Interaction Based On Subject-Specific Patient-Orthosis Coupling Musculoskeletal Model


Project Notice

PNR 65166
Project Name Study on the Biomechanical Mechanism of Patient-Orthosis Interaction Based on Subject-Specific Patient-Orthosis Coupling Musculoskeletal Model
Project Detail Personalised models could enable personalised orthotic treatment of knee osteoarthritis More than 300 million people are living with knee osteoarthritis (KOA), creating a pressing need for more effective and comfortable knee orthoses. Current musculoskeletal models and newer human-orthosis coupling models inadequately capture the biomechanical mechanisms of patient-orthosis interactions, particularly related to abnormal load distribution between knee medial and lateral compartments, the main biomechanical factor associated with the initiation and progression of KOA. With the support of the Marie Sklodowska-Curie Actions programme, the KOA-Orthosis project will develop subject-specific patient-orthosis coupling musculoskeletal models enabling the detailed analysis of critical interactions. The project will then use simulations to design a prototype knee orthosis based on the developed interaction models and evaluate its performance. Knee osteoarthritis (KOA) is a prevalent, chronic, degenerative, and multifactorial disease associated with pain, stiffness, and physical disability, and it is a significant public health problem in the world. Abnormal load distribution between knee medial and lateral compartments has been designated as the main biomechanical factor for the initiation and progression of KOA. Accurate quantification of internal knee contact force during daily living activities is significant for understanding the biomechanical mechanism of patient-orthosis interaction and improving the treatment with knee orthotics. During the passing years, some subject-specific musculoskeletal models have been proposed to improve the prediction accuracy of internal knee contact force. However, approximations such as linear scaling, point contact assumptions, absence of ligaments, inaccurate muscle models, and absence of proper knee models are present in most models. Additionally, new human-orthosis coupling models have been proposed during the past years. However, disadvantages such as a relatively simple human model, non-patient model, and rigid contact between human and orthosis, remain. Therefore, the current musculoskeletal models and human-orthosis coupling models are not suitable for deeply studying the biomechanical mechanism of patient-orthosis interaction. The goal of the research will focus on (1) developing a subject-specific patient-orthosis coupling musculoskeletal model considering subject-specific geometric models of bones, cartilages and meniscus, knee ligaments, muscle modelling, natural contact, and patient’s disease progression; (2) analyzing the biomechanical relationship between the applied orthopedic moment and internal contact forces of knee medial and lateral compartments, and understanding the interaction between the knee orthosis and KOA patients; (3) simulation-based design and evaluation of a prototype knee orthosis based on the developed interaction models.
Funded By European Union (EU)
Sector Electronics
Country Sweden , Northern Europe
Project Value SEK 206,888

Contact Information

Company Name KUNGLIGA TEKNISKA HOEGSKOLAN
Web Site https://cordis.europa.eu/project/id/101109938

Tell us about your Product / Services,
We will Find Tenders for you