2022
DOI: 10.1177/00405175221075049
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Non-linear finite element model established on pectoralis major muscle to investigate large breast motions of senior women for bra design

Abstract: This paper presents a three-dimensional nonlinear biomechanical finite element model to simulate elderly breast deformation under arm abduction. The finite element model was constructed based on complex anatomical structures that consist of the soft tissues including torso, breast, pectoralis major muscle, and rigid bones including humerus, sternum, clavicle and ribs. The elderly breast was defined as material nonlinearity and geometric nonlinearity. The computational model can simulate and illustrate the defo… Show more

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Cited by 6 publications
(8 citation statements)
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“…They obtained an optimal elastic modulus for the bra cup material of 1.5 MPa since after this value no changes were observed in the uplifting and gathering of the breasts. Also focusing on the design of bras, Zhang et al (2022) simulated elderly breast deformation under arm abduction, which was validated with motion data. The model included the torso, breast (defined as non-linear material), pectoralis major muscle, and rigid bones.…”
Section: Finite Element Analysismentioning
confidence: 99%
“…They obtained an optimal elastic modulus for the bra cup material of 1.5 MPa since after this value no changes were observed in the uplifting and gathering of the breasts. Also focusing on the design of bras, Zhang et al (2022) simulated elderly breast deformation under arm abduction, which was validated with motion data. The model included the torso, breast (defined as non-linear material), pectoralis major muscle, and rigid bones.…”
Section: Finite Element Analysismentioning
confidence: 99%
“…Constitutive Models: Various constitutive models are available to describe breast tissue behavior, ranging from linear elastic models for simplicity to more complex nonlinear models that capture tissue response more accurately. Selecting an appropriate model is essential [1].…”
Section: Methodsmentioning
confidence: 99%
“…Breast tissue, a complex and dynamic organ, holds immense significance in both clinical practice and biomedical research [1]. Its intricate structure, composition, and mechanical behavior play pivotal roles in various aspects of women's health, including breast cancer detection, surgical interventions, reconstruction procedures, and radiation therapy planning.…”
Section: Introductionmentioning
confidence: 99%
“…This approach originates from the field of animation, where realistic dynamic body shapes can be simulated based on a second-order auto-regressive model that predicts soft-tissue deformations learned from previous deformations [9]. In order to simulate the deformation behavior of the soft tissue influenced by tight-fitting clothes, the modelling based on CT scans is the most practical and a non-invasive method for generating a soft avatar and enables the exact determination of the geometry for the different tissue structures inside [10].…”
Section: Mechanical Behavior Of the Human Bodymentioning
confidence: 99%