2023
DOI: 10.3389/fbioe.2023.1153692
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Modeling of active skeletal muscles: a 3D continuum approach incorporating multiple muscle interactions

Abstract: Skeletal muscles have a highly organized hierarchical structure, whose main function is to generate forces for movement and stability. To understand the complex heterogeneous behaviors of muscles, computational modeling has advanced as a non-invasive approach to evaluate relevant mechanical quantities. Aiming to improve musculoskeletal predictions, this paper presents a framework for modeling 3D deformable muscles that includes continuum constitutive representation, parametric determination, model validation, … Show more

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Cited by 10 publications
(4 citation statements)
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References 72 publications
(166 reference statements)
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“…Despite these advantages, some aspects such as volumetric shape or the shift of muscle mass during contraction cannot be properly modelled using Hill-type models such as the EHTM. Thus, recent studies have focused on the creation of constitutive three-dimensional muscle models to describe the processes and effects of muscle contraction in more detail (Almonacid et al 2022 ; Saini et al 2022 ; Zeng et al 2023 ). While these models thus offer a more wholistic perspective on the topic of skeletal muscle behaviour and have shown to achieve more realistic results than their discrete, on-dimensional counterparts in some cases (Hedenstierna and Halldin 2008 ), one critical downside concerning their widespread use remains unresolved.…”
Section: Discussionmentioning
confidence: 99%
“…Despite these advantages, some aspects such as volumetric shape or the shift of muscle mass during contraction cannot be properly modelled using Hill-type models such as the EHTM. Thus, recent studies have focused on the creation of constitutive three-dimensional muscle models to describe the processes and effects of muscle contraction in more detail (Almonacid et al 2022 ; Saini et al 2022 ; Zeng et al 2023 ). While these models thus offer a more wholistic perspective on the topic of skeletal muscle behaviour and have shown to achieve more realistic results than their discrete, on-dimensional counterparts in some cases (Hedenstierna and Halldin 2008 ), one critical downside concerning their widespread use remains unresolved.…”
Section: Discussionmentioning
confidence: 99%
“…This muscle behavior, in passive and active scenarios, marked by a certain deformability between elongation and shortening, corresponds to information about relaxation and contraction, which is difficult to measure in practice, especially during complex movements. Physical and computerized muscle models have been developed for measuring muscle length and moment arms in healthy individuals [95][96][97][98]. Figure 5 demonstrate an example of a biomechanical analysis of the muscles in the upper limb using the Newcastle shoulder model [99].…”
Section: Soft Tissuesmentioning
confidence: 99%
“…The muscle was modeled as a fiber-reinforced composite in which the strain energy density function includes the contribution from the isotropic matrix embedding the muscle fiber and the contribution from the muscle fibers [23]. The strain energy density function of the muscle contains the following terms:…”
Section: Constitutive Models Of the Muscle Bone And Tendonmentioning
confidence: 99%