In Silico Pelvis and Sacroiliac Joint Motion: Refining a Model of the Human Osteoligamentous Pelvis for Assessing Physiological Load Deformation Using an Inverted Validation Approach

Abstract: Introduction. Computational modeling of the human pelvis using the finite elements (FE) method has become increasingly important to understand the mechanisms of load distribution under both healthy and pathologically altered conditions and to develop and assess novel treatment strategies. The number of accurate and validated FE models is however small, and given models fail resembling the physiologic joint motion in particular of the sacroiliac joint. This study is aimed at using an inverted validation approac… Show more

“…A FE model of a pelvis previously developed and refined (Ramezani et al, 2019 ; Toyohara et al, 2020 ; Venayre et al, 2021 ) was deployed to analyze the deformation of the pelvis as a response to different load force representing upper body part and different elastic properties of the SS and ST ligaments. Bone geometries were extracted from the computed tomography scan of a healthy male (29 years, body height 185 cm, body weight 69 kg).…”

“…Points where the deformations were measured are shown in Figure 2. Those points were previously shown to be good indicators of pelvis ring deformation and stability and served as validation points in computer-cadaveric studies (Hammer, Scholze, et al, 2019;Ramezani et al, 2019). Point S M was defined in the ventral center of the sacrum or the left (S L ).…”

“…The aim of this given numerical study was to assess the influence of three different configurations for the SS and ST ligaments on pelvis kinematics. For this purpose, a detailed and previously validated model of the osteoligamentous pelvis was used (Hammer, Scholze, et al, 2019 ; Ramezani et al, 2019 ), which has been extended to include the hip joint to allow for a more realistic motion of the sacrum relative to a movable innominate bone. It has been hypothesized that (A) lowering material stiffness for the SS and ST ligaments improves the accuracy of in silico with in vitro kinematics for the osteoligamentous pelvis.…”

“…The results of the computer model were compared with experimental results from the authors' previous study (Hammer, Scholze, et al, 2019 ; Ramezani et al, 2019 ). In addition, a sensitivity analysis of the pelvic deformation with respect to the load from the upper body was performed using the finite element (FE) method.…”

Sacrospinous and sacrotuberous ligaments influence in pelvis kinematics

“…A FE model of a pelvis previously developed and refined (Ramezani et al, 2019 ; Toyohara et al, 2020 ; Venayre et al, 2021 ) was deployed to analyze the deformation of the pelvis as a response to different load force representing upper body part and different elastic properties of the SS and ST ligaments. Bone geometries were extracted from the computed tomography scan of a healthy male (29 years, body height 185 cm, body weight 69 kg).…”

“…Points where the deformations were measured are shown in Figure 2. Those points were previously shown to be good indicators of pelvis ring deformation and stability and served as validation points in computer-cadaveric studies (Hammer, Scholze, et al, 2019;Ramezani et al, 2019). Point S M was defined in the ventral center of the sacrum or the left (S L ).…”

“…The aim of this given numerical study was to assess the influence of three different configurations for the SS and ST ligaments on pelvis kinematics. For this purpose, a detailed and previously validated model of the osteoligamentous pelvis was used (Hammer, Scholze, et al, 2019 ; Ramezani et al, 2019 ), which has been extended to include the hip joint to allow for a more realistic motion of the sacrum relative to a movable innominate bone. It has been hypothesized that (A) lowering material stiffness for the SS and ST ligaments improves the accuracy of in silico with in vitro kinematics for the osteoligamentous pelvis.…”

“…The results of the computer model were compared with experimental results from the authors' previous study (Hammer, Scholze, et al, 2019 ; Ramezani et al, 2019 ). In addition, a sensitivity analysis of the pelvic deformation with respect to the load from the upper body was performed using the finite element (FE) method.…”

Sacrospinous and sacrotuberous ligaments influence in pelvis kinematics

“…In this study, computer simulations were performed using finite element analysis during normal walking, resembling the five walking phases of a living body. The finite element model of the pelvis used in this experiment has reproduced the SIJ and the surrounding ligaments by previous anatomical studies [9][10][11][12][13] . In addition, this finite element model included both femora, and simulations can be performed with walking data.…”

Finite element analysis of load transition on sacroiliac joint during bipedal walking

Topology optimization of the hip bone for a few activities of daily living