Muskejo is the world's first musculoskeletal model capable of biomechanical analysis at the joint tissue level.
Based on the musculoskeletal model Muskejo, we will evaluate the functionality of the brace by simulating joint movements with the brace attached and investigating changes in joint motion and the mechanical quantities of soft tissues.
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basic information
Muskejo (Musculo-skeletal-joint) enables kinematic and dynamic calculations such as joint angles, joint moments, and muscle forces by combining a motion capture system with force plates. Furthermore, it allows for biomechanical analysis at the joint and soft tissue level, including joint accessory movements (internal/external rotation, varus/valgus, translation, etc.), joint contact mechanics (contact pressure, contact area, soft tissue stress, etc.), and ligament forces. Conventional musculoskeletal models represent bones as rigid bodies and joints as mechanical axes in a rigid link system, allowing for biomechanical analysis at the body level, but they cannot perform biomechanical analysis at the joint tissue level. Muskejo is the world's first musculoskeletal model (also referred to as a muscle-skeletal-joint model) that can conduct biomechanical analysis at the joint tissue level, taking into account the physiological interactions between muscle activity in the body and the deformation of joint tissues, along with the accompanying joint movements (unique technology: concurrent analysis).
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Applications/Examples of results
Human motion analysis, orthopedic rehabilitation, joint surgery navigation, artificial joint evaluation, ligament reconstruction evaluation, meniscus tear evaluation, orthotic therapy, sports performance, physical biomechanics, exercise neuroscience, human-machine interaction, educational support in anatomy, gerontology, ergonomics, and more can be widely utilized in industry, academic research, and education.
Company information
Our company develops, designs, manufactures, and sells measurement, analysis, and sensing systems for body movements aimed at research and development in collaboration with academia and industry. We also provide contracted analysis of body movements, develop, design, manufacture, and sell assistive devices for body movements, and offer services centered around STEM education to promote the social dissemination of human biomechanics. Using the human motion analysis systems we have developed, we are working to elucidate the mechanisms of human body movements. We, who advocate "Technology for Human," aim to improve the quality of life for people by aligning our research and development with their needs, striving to create innovative and practical technologies.