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Research section Biomechanics

The section Biomachanics integrates neurophysiology and biomechanics to better understand the neuromusculoskeletal system. Our mission is to understand the interaction of musculoskeletal biomechanics and neural control to optimize human motor function.

We study the mechanics of muscles and muscle-joint systems and how the musculoskeletal system is controlled in posture, locomotion and upper extremity tasks. Our aim is to contribute to the improvement of motor function in rehabilitation physiotherapy, sports and ergonomics.

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Leading research themes of Biomechanics

  • Muscle-Tendon Unit Mechanisms

    We study the function of muscles as mechanical and sensory organs, with a specific focus on the effects of tendinous and myofascial connections on mechanical output and sensory afference. In addition, we study the mechanical function and the tolerance to mechanical loading of joints with a specific focus on the intervertebral joints.

    Research projects ...

  • Control of Posture and Gait

    We study how stability of the whole body and of the trunk is maintained against gravity, what sensory information and motor strategies are used to this end and how this is affected by injury, ageing and disease, but also by training.

    Research projects ...

  • Mechanics & Energetics of Locomotion

    We study the mechanics and energetics of walking and running, with a focus on stability, i.e., our ability not to fall during these tasks. We study what sensory information and motor strategies are used and how these are affected by injury, ageing and disease, but also by training.

    Research projects ...

  • Upper Extremity Function

    We study the relation between structure, function and control in the performance of upper extremity tasks, covering the range from ballistic movements, such as throwing a ball, to precision tasks, such as threading a needle.

    Research projects ...

  • Neural Underpinnings

    Studying motor-related changes of synchronized neural activity and its network-like distribution elucidates how the brain can operate as functional unit despite numerous anatomical connections between simultaneously active neurons.

    Research projects ...

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020 59 82000

Faculteit der Gedrags- en Bewegingswetenschappen
Kamer-D-638
Van der Boechorststraat 9
1081 BT Amsterdam

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