Relations between compressive axial forces in an instrumented massive femoral implant, ground reaction forces, and integrated electromyographs from vastus lateralis during various ‘osteogenic’ exercises
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2019, Journal of Electromyography and KinesiologyTibial impacts and muscle activation during walking, jogging and running when performed overground, and on motorised and non-motorised treadmills
2016, Gait and PostureCitation Excerpt :For bone health, it is important to establish the magnitude of mechanical loading and muscle activation generated by walking and running as the intensity of loading encourages skeletal adaptation [15]. Muscular activation has been linked with internal compressive forces that increase the mechanical loading on bones [16]. In addition, muscles impose a stress on the skeletal system which increases bone remodelling [17].
Effect of the variation of loading frequency on surface failure of bovine articular cartilage
2015, Osteoarthritis and CartilageEffect of increased pushoff during gait on hip joint forces
2015, Journal of BiomechanicsCitation Excerpt :As the peak anterior hip joint force occurs temporally near to the peak hip flexion moment during late stance, we surmise that the reduction in the anterior hip joint force is attributable to the reduction in the hip flexion moment. This explanation is consistent with the finding that forces at the hip are primarily due to muscle activation (Bassey et al., 1997; Correa et al., 2010; Lewis et al., 2010). Furthermore, the production of a hip flexion moment in a position of hip extension, such as during late stance, results in an anterior hip joint force (Lewis et al., 2007) due to the directional pull of the hip flexor muscles.