2020
DOI: 10.1038/s41598-020-70676-w
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Finite element analysis of load transition on sacroiliac joint during bipedal walking

Abstract: Shin-ichi izumi 7,8 , eiichi Murakami 2 , Hiroshi ozawa 9 & toshiro ohashi 10 the sacroiliac joint (SiJ) is burdened with variant loads. However, no methods have allowed to measure objectively how the SiJ deforms during bipedal walking. in this study, in-vivo walking conditions were replicated in a kinematic model combining the finite element method with 3D walking analysis data divided into five phases in order to visualize the load transition on the SIJ and clarify the role of the SiJ. Both models with and w… Show more

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Cited by 35 publications
(27 citation statements)
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“…The male sacral cartilage is typically thinner while the overall joint surface area is greater in males [ 18 ]. Biomechanically, the main role of the SIJ is that of a shock absorber, especially during bipedal walking [ 19 ]. A recent study by Joukar et al investigated differences in joint biomechanics between males and females [ 20 ] in an elaborate computational finite element model of the SIJ—they found higher mobility, mechanical stresses and loads, and ligamentous strains of the female joint.…”
Section: Biomechanics and Typical Anatomy Of The Sacroiliac Jointsmentioning
confidence: 99%
“…The male sacral cartilage is typically thinner while the overall joint surface area is greater in males [ 18 ]. Biomechanically, the main role of the SIJ is that of a shock absorber, especially during bipedal walking [ 19 ]. A recent study by Joukar et al investigated differences in joint biomechanics between males and females [ 20 ] in an elaborate computational finite element model of the SIJ—they found higher mobility, mechanical stresses and loads, and ligamentous strains of the female joint.…”
Section: Biomechanics and Typical Anatomy Of The Sacroiliac Jointsmentioning
confidence: 99%
“…Each movement is the sum of several movements; for example, nutation and counter-nutation are the sum of a rotation and a translation [34]. During the gait cycle, in the oscillation phases where one leg bears the weight of the body, the SIJ is pulled downwards from the side of the free leg and undergoes a counter-nutation, with respect to the ileum; the ileum is lowered from the side of the swinging leg [36]. In the stance phase, the ileum on the side of foot contact is raised with respect to the sacrum, while the latter, passively performs a nutation [36].…”
Section: The Passive Movement Of the Sacrum Between The Iliac Bonesmentioning
confidence: 99%
“…During the gait cycle, in the oscillation phases where one leg bears the weight of the body, the SIJ is pulled downwards from the side of the free leg and undergoes a counter-nutation, with respect to the ileum; the ileum is lowered from the side of the swinging leg [36]. In the stance phase, the ileum on the side of foot contact is raised with respect to the sacrum, while the latter, passively performs a nutation [36]. In the oscillation phases the SIJ moves about 0.3 mm and about 0.6 mm in the support phases [36].…”
Section: The Passive Movement Of the Sacrum Between The Iliac Bonesmentioning
confidence: 99%
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