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musculoskeletal lower body model  (OpenSim Ltd)

 
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    OpenSim Ltd musculoskeletal lower body model
    Musculoskeletal Lower Body Model, supplied by OpenSim Ltd, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/musculoskeletal lower body model/product/OpenSim Ltd
    Average 90 stars, based on 1 article reviews
    musculoskeletal lower body model - by Bioz Stars, 2026-05
    90/100 stars

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    musculoskeletal lower body model  (OpenSim Ltd)
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    Marker set for motion capture data and <t>musculoskeletal</t> models. Twenty-two individual markers and 4 cluster markers were placed on the bone anatomical landmarks of the lower body (A). Six different exercises; walking, running, countermovement jump, squat jump, unilateral hopping, and bilateral hopping were performed by each participant (B). Scaled musculoskeletal models were developed in OpenSim representing each performed exercise (C).
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    Marker set for motion capture data and <t>musculoskeletal</t> models. Twenty-two individual markers and 4 cluster markers were placed on the bone anatomical landmarks of the lower body (A). Six different exercises; walking, running, countermovement jump, squat jump, unilateral hopping, and bilateral hopping were performed by each participant (B). Scaled musculoskeletal models were developed in OpenSim representing each performed exercise (C).
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    Marker set for motion capture data and musculoskeletal models. Twenty-two individual markers and 4 cluster markers were placed on the bone anatomical landmarks of the lower body (A). Six different exercises; walking, running, countermovement jump, squat jump, unilateral hopping, and bilateral hopping were performed by each participant (B). Scaled musculoskeletal models were developed in OpenSim representing each performed exercise (C).

    Journal: JBMR Plus

    Article Title: Lower limb joint loading during high-impact activities: implication for bone health

    doi: 10.1093/jbmrpl/ziae119

    Figure Lengend Snippet: Marker set for motion capture data and musculoskeletal models. Twenty-two individual markers and 4 cluster markers were placed on the bone anatomical landmarks of the lower body (A). Six different exercises; walking, running, countermovement jump, squat jump, unilateral hopping, and bilateral hopping were performed by each participant (B). Scaled musculoskeletal models were developed in OpenSim representing each performed exercise (C).

    Article Snippet: Joint reaction forces were estimated using lower body musculoskeletal models developed in OpenSim.

    Techniques: Marker

    Mean and SD of the peak vertical ground reaction force and joint contact forces of the hip, knee, and ankle estimated by the musculoskeletal models for the 6 tested exercises.

    Journal: JBMR Plus

    Article Title: Lower limb joint loading during high-impact activities: implication for bone health

    doi: 10.1093/jbmrpl/ziae119

    Figure Lengend Snippet: Mean and SD of the peak vertical ground reaction force and joint contact forces of the hip, knee, and ankle estimated by the musculoskeletal models for the 6 tested exercises.

    Article Snippet: Joint reaction forces were estimated using lower body musculoskeletal models developed in OpenSim.

    Techniques: