Your search keyword '"Sacroiliac Joint physiology"' showing total 155 results

1. Sacroiliac joint auricular surface morphology modulates its mechanical environment.

Author

Henyš P and Hammer N

Subjects

Humans, Female, Male, Adult, Middle Aged, Biomechanical Phenomena physiology, Young Adult, Aged, Finite Element Analysis, Adolescent, Aged, 80 and over, Stress, Mechanical, Sacroiliac Joint anatomy & histology, Sacroiliac Joint physiology, Sacroiliac Joint diagnostic imaging, Tomography, X-Ray Computed

Abstract

The sacroiliac joint (SIJ) exhibits significant variation in auricular surface morphology. This variation influences the mechanics of the SIJ, a central node for transmitting mechanical energy from upper body to lower limbs and vice versa. The impact of the auricular surface morphology on stress and deformation in the SIJ remains poorly understood to date. Computed tomography scans obtained from 281 individuals were included to extract the geometry of the pelvic ring. Then, the auricular surface area, SIJ cartilage thickness, and total SIJ cartilage volume were identified. Based on these reconstructions, 281 finite element models were created to simulate SIJ mechanical loading. It was found that SIJ cartilage thickness only weakly depended on age or laterality, while being strongly sex sensitive. Auricular surface area and SIJ cartilage volume depended weakly and non-linearly on age, peaking around menopause in females, but without significant laterality effect. Larger SIJs, characterized by greater auricular area and cartilage volume, exhibited reduced stress and deformation under loading. These findings highlight the significant role of SIJ morphology in its biomechanical response, suggesting a potential link between morphological variations and the risk of SIJ dysfunction. Understanding this relationship could improve diagnosis and targeted treatment strategies for SIJ-related conditions., (© 2024 The Author(s). Journal of Anatomy published by John Wiley & Sons Ltd on behalf of Anatomical Society.)

Published

2025

2. Non-invasive assessment of sacroiliac joint and lumbar spine positioning in different unilateral sitting postures.

Author

Riazi S, Klahsen O, Al-Rasheed M, Beaudette SM, and Brown SHM

Subjects

Humans, Male, Female, Biomechanical Phenomena, Young Adult, Adult, Sex Factors, Posture physiology, Sacroiliac Joint physiology, Sacroiliac Joint physiopathology, Lumbar Vertebrae physiology, Lumbar Vertebrae physiopathology, Sitting Position, Range of Motion, Articular physiology

Abstract

Background: Sacroiliac joint (SIJ) motion has been documented using invasive and noninvasive kinematic techniques. No study has explored SIJ angular positions in functional postures using noninvasive techniques. The purpose of this study was to quantify SIJ positioning among different seated postures in a healthy population., Methods: Twelve female and 11 male healthy young participants participated. Left and right anterior and posterior superior iliac spines were manually digitized during standing, neutral sitting and four different seated postures. Rigid bodies recorded the kinematics of the lumbar spine. Angles calculated included transverse sacroiliac angle, innominate sagittal angle, sacral tilt, lumbar flexion-extension, lumbar lateral bend and lumbar axial twist., Findings: The observed range of angular positions was approximately 3 to 4 degrees across the SIJ-related angles. The main effect of seated posture was observed for all angles measured. The main effect of sex was observed for all angles except lumbar lateral bending. Females consistently experienced more posterior sacral tilt than males. Interaction effects between sex and posture were only observed at the right-transverse sacroiliac angle and sacral tilt. Previous sitting posture affected the subsequent neutral sitting posture for the right-transverse sacroiliac angle and lumbar spine angle., Interpretation: SIJ angular position differences among the seated postures were similar in magnitude to motions previously reported in participants undergoing prone passive hip abduction and external rotation. Sex differences, including greater sacral posterior tilt observed in females, likely reflect underlying morphological and physiological differences. Future studies should explore SIJ positioning during functional tasks in pathological populations to help elucidate the underlying causes of SIJ pain and inform treatment strategies.

Published

2024

3. A literature review of biomechanical studies on physiological and pathological sacroiliac joints: Articular surface structure, joint motion, dysfunction and treatments.

Author

Toyohara R and Ohashi T

Subjects

Humans, Pelvis physiology, Motion, Ligaments, Pain, Biomechanical Phenomena, Sacroiliac Joint physiology, Joint Diseases

Abstract

Background: Sacroiliac joints are affected by mechanical environments; the joints are formed under mechanical stimulation, receive impact of walking between the upper and lower parts of the bodies and can be a cause of pain due to non-physiological loads. However, there are so far very few studies that reviewed biomechanics of physiological and pathological sacroiliac joints. This review article aims to describe the current sacroiliac joint biomechanics., Methods: Previous original papers have been summarized based on three categories: articular surface structure, sacroiliac joint motion and sacroiliac joint dysfunction and treatments., Findings: Although the articular surface morphologies vary greatly from individual to individual, many researchers have tried to classify the joints into several types. It has been suggested that the surface morphologies may not change regardless of joint dysfunction, however, the relationship between the joint structure and pain are still unclear. The range of sacroiliac joint motion is demonstrated to be less than 1 mm and there is no difference between physiological and pathological joints. The sacroiliac joint absorbs shock within the pelvis by the joint structures of pelvic morphology, ligaments and fat tissues. The morphology and motion of the sacroiliac joints may be optimized for upright bipedal walking., Interpretation: There is no doubt that pelvic mechanical environments affect pain induction and treatment; however, no one has yet provided a concrete explanation. Future research could help develop treatments based on sacroiliac joint biomechanics to support joint function., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

4. Experimental characterization of motion resistance of the sacroiliac joint.

Author

Toyohara R, Hammer N, and Ohashi T

Subjects

Humans, Motion, Stress, Mechanical, Range of Motion, Articular physiology, Sacroiliac Joint diagnostic imaging, Sacroiliac Joint anatomy & histology, Sacroiliac Joint physiology, Standing Position

Abstract

Background: The human sacroiliac joint (SIJ) in vivo is exposed to compressive and shearing stress environment, given the joint lines are almost parallel to the direction of gravity. The SIJ supports efficient bipedal walking. Unexpected or unphysiological, repeated impacts are believed to cause joint misalignment and result in SIJ pain. In the anterior compartment of the SIJ being synovial, the articular surface presents fine irregularities, potentially restricting the motion of the joints., Objective: To clarify how the SIJ articular surface affects the resistance of the motion under physiological loading., Methods: SIJ surface models were created based on computed tomography data of three patients and subsequently 3D printed. Shear resistance was measured in four directions and three combined positions using a customized setup. In addition, repositionability of SIJs was investigated by unloading a shear force., Results: Shear resistance of the SIJ was the highest in the inferior direction. It changed depending on the direction of the shear and the alignment position of the articular surface., Conclusion: SIJ articular surface morphology is likely designed to accommodate upright bipedal walking. Joint misalignment may in consequence increase the risk of subluxation.

Published

2024

5. The effects of topping-off instrumentation on biomechanics of sacroiliac joint after lumbosacral fusion.

Author

Fan W, Zhang C, Wang QD, Guo LX, and Zhang M

Subjects

Biomechanical Phenomena physiology, Lumbosacral Region, Pelvis, Lumbar Vertebrae surgery, Lumbar Vertebrae physiology, Range of Motion, Articular physiology, Finite Element Analysis, Sacroiliac Joint surgery, Sacroiliac Joint physiology, Spinal Fusion

Abstract

Background: Lumbar/lumbosacral fusion supplemented with topping-off devices has been proposed with the aim of avoiding adjacent segment degeneration proximal to the fusion construct. However, it remains unclear how the biomechanics of the sacroiliac joint (SIJ) are altered after topping-off surgery. The objective of this study was to investigate the biomechanical effects of topping-off instrumentation on SIJ after lumbosacral fusion., Methods: The validated finite element model of an intact lumbar spine-pelvis segment was modified to simulate L5-S1 interbody fusion fixed with a pedicle screw system. An interspinous spacer, Device for Intervertebral Assisted Motion (DIAM), was used as a topping-off device and placed between interspinous processes of the L4 and L5 segments. Range of motion (ROM), von-Mises stress distribution, and ligament strain at SIJ were compared between fusion (without DIAM) and topping-off (fusion with DIAM) models under moments of four physiological motions., Results: ROM at the left and right SIJs in the topping-off model was higher by 26.9% and 27.5% in flexion, 16.8% and 16.1% in extension, 18.8% and 15.8% in lateral bending, and 3.7% and 7.4% in axial rotation, respectively, compared to those in the fusion model. The predicted stress and strain data showed that under all physiological loads, the topping-off model exhibited higher stress and ligament strain at the SIJs than the fusion model., Conclusions: Motion, stress, and ligament strain at SIJ increase when supplementing lumbosacral fusion with topping-off devices, suggesting that topping-off surgery may be associated with higher risks of SIJ degeneration and pain than fusion alone., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

6. In-vitro 3D Analysis of Sacroiliac Joint Kinematics: Primary and Coupled Motions.

Author

Odeh K, Wu W, Taylor B, Leasure J, and Kondrashov D

Subjects

Adult, Cadaver, Female, Humans, Low Back Pain pathology, Low Back Pain physiopathology, Male, Middle Aged, Prostheses and Implants, Sacroiliac Joint pathology, Biomechanical Phenomena physiology, Range of Motion, Articular physiology, Rotation, Sacroiliac Joint physiology

Abstract

Study Design: An in-vitro biomechanical study of human cadaver sacroiliac joints., Objective: Our study aimed to develop a more comprehensive understanding of the native motion of the SIJ within the context of spinal kinematics and spinal implant evaluation., Summary of Background Data: Increasing attention has been given to the sacroiliac joint (SIJ) as a source of low back pain, despite its limited range of motion. We sought to characterize the rotational and translational motion in each axis utilizing standard pure moment flexion-extension (FE), lateral bending (LB), and axial rotation (AR) testing., Methods: Sixteen sacroiliac joints were evaluated from eight lumbosacral cadaver specimens (six females, two males) from subjects aged 28 to 57 years (mean age 46.8) with body mass index (BMI) 22 to 36 (mean BMI 30). Single leg stance was modeled by clamping the blocks on one ischium in a vise and letting the contralateral ischium hang freely. Pure moment loading was applied in FE, right/left AR, and right/left LB. Relative motions were collected with infrared markers., Results: The on-axis ratio was significantly lower in LB than in FE (P = 0.012) and in AR (P = 0.017). The rotation deviation angle measured 13.9 ± 9.1° in FE, 17.1 ± 8.7° in AR, and 35.7 ± 25.7° in LB. In LB the rotational deviation angle is significantly higher than both FE and AR (P = 0.003 and P = 0.011, respectively). In-plane translation was significantly higher (P = 0.005) in FE loading than in LB loading., Conclusion: A nontrivial amount of rotation and translation occurred out of the expected axis of motion. The largest amount of off-axis rotation was observed in lateral bending. Relative to resultant translation, in-plane translation was lowest in lateral bending. Our results indicate that rotation of the SIJ is not fully described with the in-plane metrics which are normally reported in evaluation of fusion devices. Future studies of the SIJ may need to consider including off-axis rotation measurements when describing SIJ kinematics.Level of Evidence: 5., (Copyright © 2021 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2021

7. [Pain generator sacroiliac joint : Functional anatomy, symptoms and clinical significance].

Author

Schenker A, Schiltenwolf M, Schwarze M, Pepke W, Hemmer S, and Akbar M

Subjects

Arthralgia diagnosis, Humans, Lumbar Vertebrae, Arthralgia etiology, Low Back Pain diagnosis, Low Back Pain etiology, Low Back Pain pathology, Sacroiliac Joint anatomy & histology, Sacroiliac Joint diagnostic imaging, Sacroiliac Joint physiology

Abstract

Background: The sacroiliac joint is a common cause of low back pain. Due to variable symptoms, the diagnosis is often very difficult. For diagnosis, systemic disease, as well as pathologies in the hips and lumbar spine must be excluded., Objectives: To describe anatomy and function of the joint and underlying pathologies. To present the evidence of actual diagnostic and therapeutic options., Materials and Methods: An extensive literature research was carried out on PubMed., Results: The sacroiliac joint is an important and biomechanically complex joint. There are many controversial diagnostic tests to identify the sacroiliac joint as a source of pain. The cause of the dysfunction must be identified in order to treat it correctly and to prevent a chronification of the pain. The gold standard is conservative care., Conclusion: The sacroiliac joint must be included in the differential diagnosis in patients with low back pain. Diagnostic tests are often insufficient for the diagnosis of sacroiliac joint pain. Many of the current diagnostic and therapeutic options present weak evidence.

Published

2020

8. Short-Term Effects of Global Pelvic Manipulation on Knee Joint Position Sense in Asymptomatic Participants: A Double-Blind Randomized Controlled Trial.

Author

Paredes R, Crasto C, Magalhães B, and Carvalho P

Subjects

Adult, Double-Blind Method, Female, Humans, Male, Sacroiliac Joint physiology, Knee Joint physiology, Muscle Stretching Exercises physiology, Physical Exertion physiology, Proprioception physiology, Range of Motion, Articular physiology

Abstract

Objective: The purpose of this study was to evaluate short-term effects of the global pelvic manipulation (GPM) on knee joint position sense (JPS)., Methods: This randomized, controlled double-blind trial included 26 asymptomatic participants (X¯± 25.3; standard deviation ± 4.4 years) who were randomly allocated into 2 groups. Sixteen participants were allocated into the experimental group, in which GPM was performed, and the rest of the participants (n = 10) were included in the control group, which received sham ultrasound therapy. Each participant attended 1 session only, and the evaluations were assessed pretreatment and 5 minutes posttreatment through an isokinetic dynamometer (Biodex Medical Systems), in which the data regarding knee JPS ipsilateral to the manipulated sacroiliac joint were collected. Mann-Whitney and Wilcoxon tests were used, with a 95% significance level., Results: There were no statistically significant differences between the groups concerning active and passive JPS at 30° and 60° (P > .05). The results showed a lack of significant differences between the moments in both groups (P > .05)., Conclusion: This investigation demonstrated that GPM, with high-velocity low-amplitude thrust, has no effect on knee JPS, suggesting that this manipulative technique does not have a relative effect on muscle spindles and Golgi tendon organ activation in asymptomatic participants., (Copyright © 2020. Published by Elsevier Inc.)

Published

2020

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

Author

Toyohara R, Kurosawa D, Hammer N, Werner M, Honda K, Sekiguchi Y, Izumi SI, Murakami E, Ozawa H, and Ohashi T

Subjects

Adult, Biomechanical Phenomena, Computer Simulation, Finite Element Analysis, Humans, Male, Models, Biological, Range of Motion, Articular, Stress, Mechanical, Pelvic Bones physiology, Sacroiliac Joint physiology, Sacrum physiology, Walking physiology

Abstract

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 without inclusion of the SIJ were investigated. In models with bilateral SIJs, the displacement differed greatly between the sacrum and both hip bones on the SIJ as the boundary. The movements of the sacrum involved a nutation movement in the stance phase and a counter-nutation in the swing phase relative to the ilium. In models without SIJs, the displacement of the pelvis and loads of pelvic ligaments decreased, and the equivalent stress of the SIJs increased compared to the model with SIJs. The walking loads cause distortion of the entire pelvis, and stress concentration at the SIJ are seen due to the morphology of the pelvic ring. However, the SIJs help dissipate the resulting stresses, and the surrounding ligaments are likewise involved in load transmission.

Published

2020

10. Three-Dimensional Finite Element Analysis of the Effects of Ligaments on Human Sacroiliac Joint and Pelvis in Two Different Positions.

Author

Yang J, Zhao G, Xu H, and Wang F

Subjects

Humans, Biomechanical Phenomena, Male, Posture physiology, Imaging, Three-Dimensional, Adult, Finite Element Analysis, Sacroiliac Joint physiology, Sacroiliac Joint diagnostic imaging, Ligaments physiology, Ligaments diagnostic imaging, Pelvis physiology, Pelvis diagnostic imaging, Stress, Mechanical

Abstract

To present the ligament effects on sacroiliac joint (SIJ) stability and human pelvis biomechanical characteristics in two different positions by using three-dimensional (3D) finite element (FE) models of pelvis. Based on the computed tomography (CT) data of human pelvis, three-dimensional FE models of human pelvis in sitting and standing positions were established, which include the bone (sacrum, ilium, and coccyx) and six ligaments (sacroiliac, sacrospinous, sacrotuberous, inguinal, superior pubic, and arcuate pubic ligaments). 600 N vertical load was applied at the upper surface of sacrum to analyze the stress and displacement distribution of pelvis and SIJ. The simulation results demonstrated that the maximum stresses of sacrum and ilium on SIJ contact surface were 5.63 MPa and 7.40 MPa in standing position and 7.44 MPa and 7.95 MPa in sitting position. The stresses of ligament dysfunction group were higher than that of health group, which increased by 22.6% and 35.7% in standing position and 25.2% and 43.6% in sitting position in sacrum and ilium. The maximum displacements located on the upper surface of sacrum, which were 0.13 mm and 1.04 mm in standing and sitting positions. Ligaments dysfunction group increased 30.7% and 9.6% than health group in standing and sitting positions. The integral displacement of pelvis was greater in sitting position. The location of stress concentration and displacement distribution of pelvic bone are closely resembled previous research results in two different positions. The simulation results may provide beneficial information and theoretical models for clinical research of pelvic fracture, joint movement, and ligament functional injuries, and so on., (Copyright © 2020 by ASME.)

Published

2020

11. Quantification of fat in the posterior sacroiliac joint region applying a semi-automated segmentation method.

Author

Poilliot A, Tannock M, Zhang M, Zwirner J, and Hammer N

Subjects

Cadaver, Humans, Tomography, X-Ray Computed, Adipose Tissue diagnostic imaging, Image Processing, Computer-Assisted methods, Sacroiliac Joint diagnostic imaging, Sacroiliac Joint physiology

Abstract

Background and Objective: Fat within the posterior sacroiliac joint region (PSIJ) is thought to compensate for the incongruent surfaces of the sacrum and ilium posteriorly. Knowledge on the presence of fat in the SIJ could provide useful information about joint physiology and clinical kinematic implications of its presence. This study aimed at quantifying fat within the PSIJ, using a semi-automated method, and to compare the results to a manual segmentation method based on data from frozen cadaveric sections and computed tomography (CT). The results may provide a quicker and more objective method for fat volume quantification., Methods: Seventy-eight cadaveric hemipelves were used. Frozen sections were obtained and photographed and CT data obtained from subsamples. A MATLAB routine was deployed to assess fat in the serial sections and CT scans, using masks derived from color thresholds and Hounsfield units, respectively. Regions of interest were created to isolate the PSIJ region before fat volume was computed. A Friedman test was used for the comparison between all masks and the manual method, a Kruskall-Wallis test for comparing the CT results with all masks and the manual method and Bland-Altman plots were used to express the result differences of these methods., Results: PSIJ fat volume averaged 3.9 ± 2.2, 4.9 ± 2.5, 3.7 ± 2.3 and 7.2 ± 7.3 cm 3 for masks 1 (fat mask), 2 (no-fat mask), 3 ('control' fat mask) and CT, respectively. All masks and the CT fat volume were significantly different to the manual segmentation method (p<0.01). Mask 2 differed significantly from masks 1 and 3 (both p<0.01). Bland-Altman plots yielded differences in the measurements between the various methods., Conclusions: Manual segmentation of PSIJ fat volume may result in a relative underestimation of the total fat compared to semi-automated or CT-based methods, as fat might not be sufficiently distinguished from surrounding structures. However, the CT-based method resulted in vastly higher variation in the results and warrants further study. The semi-automated approach to quantify fat based on color thresholds presented here is more investigator-independent, time efficient and applicable to CT scans, which provides opportunity to use this technique on various tissue types in vivo., Competing Interests: Declaration of Competing Interest The author(s) declare no conflicts of interest., (Copyright © 2020. Published by Elsevier B.V.)

Published

2020

12. High-velocity, low-amplitude manipulation (HVLA) does not alter three-dimensional position of sacroiliac joint in healthy men: A quasi-experimental study.

Author

de Toledo DFA, Kochem FB, and Silva JG

Subjects

Adolescent, Adult, Biomechanical Phenomena, Humans, Male, Young Adult, Manipulation, Osteopathic methods, Movement physiology, Sacroiliac Joint physiology

Abstract

The impact of high-velocity, low-amplitude (HVLA) manipulations on the behavior of sacroiliac joint (SIJ) mobility in individuals submitted to an osteopathic intervention has not been sufficiently investigated. Furthermore, there is no standard agreement on the description of the acute effects of HLVA with regards to the mobility of the SIJ through three-dimensional motion analysis. The purpose of this study was to analyse possible alterations in the mobility of the SIJ pre- and post-manipulation of the ilium bone in healthy men. Thirty healthy male patients aged between 18 and 35 years were examined and divided into two groups: manipulation (MN) and placebo (PL) groups. SIJ movement was assessed through a three-dimensional motion analysis system before and after osteopathic manipulation of the anterior ilium bone, during hip flexion. Statistical analysis was performed using the Kolmogorov-Smirnov normality test, and Fisher's exact test was used to observe associations of interest in the mobility of the SIJ. Finally, the t-test was used to analyse values of mobility of the SIJ pre- and post-manipulation (p < 0.05). Non-significant differences were observed in SIJ mobility. In MN the means were pre-manipulation right SIJ 39.98 mm ± 10.82 [CI - 29.16-50.8] and post- 42.85 mm ± 27.17 [CI - 15.68-70.02] with p = 0.61. Pre-manipulation left SIJ 41.73 mm ± 15.34 [CI 10.89-82.99] and post- 39.97 mm ± 14.70 [CI - 24.67-54.07] with p = 0.39. HVLA does not alter the mobility of SIJ under these conditions. Further studies under different conditions, with patients that report pain, are required to fully understand the behavior of the SIJ after HVLA manipulation., (Copyright © 2019. Published by Elsevier Ltd.)

Published

2020

13. Quantification of fat in the posterior sacroiliac joint region: fat volume is sex and age dependant.

Author

Poilliot A, Doyle T, Tomlinson J, Zhang M, Zwirner J, and Hammer N

Subjects

Age Factors, Aged, Aged, 80 and over, Cadaver, Female, Humans, Male, Sex Factors, Adiposity physiology, Sacroiliac Joint physiology

Abstract

Fat is appreciated as a structural component of synovial joints. It may serve a shock-absorbing function for the incongruent surfaces, vessels and ligaments, but has not been investigated in the posterior sacroiliac joint (PSIJ). Sixty-six cadaveric hemipelves were serially-sectioned and photographed. The amount of visible fat in the PSIJ was quantified using a modified version of Cavalieri's method. Total volume, fat volume and fat percentage of the PSIJ were calculated in predefined sub-regions. Fat is consistently present in the PSIJ (1.9 ± 1.3 cm 3 ). Fat volume correlates with the PSIJ total volume (p < 0.0001; r = 0.73) and age (p = 0.024; r = 0.24), and is smaller in males (1.4 ± 0.8 cm 3 ) than females (2.4 ± 1.5 cm 3 ). Fat volumes in the middle and inferior sub-regions of the PSIJ show side- (p < 0.0001) and sex-differences (p = 0.013 females, middle sub-region). Age and PSIJ total volume correlate between sexes in various sub-regions (p = 0.05 females superior sub-region; males inferior sub-region). Fat percentage differs between sexes and sub-regions (p = 0.018 females, superior sub-region) but is independent of age and sides. The presence of fat within the PSIJ is a normal finding and shows sex-dependant and age-related differences. It is unclear whether fat is linked to age-related degeneration or has a shock-absorbing role in stress- and load-dissipation in the PSIJ.

Published

2019

14. Posture correctness of young female soccer players.

Author

Żuk B, Sutkowski M, Paśko S, and Grudniewski T

Subjects

Adolescent, Anthropometry, Female, Humans, Pelvis anatomy & histology, Pelvis physiology, Poland, Sacroiliac Joint anatomy & histology, Sacroiliac Joint physiology, Young Adult, Athletes, Postural Balance physiology, Posture physiology, Soccer physiology

Abstract

The objectives of the study were to evaluate the correctness of the body posture of female soccer players in the frontal plane from the back based on selected body points in two static positions (habitual and actively corrected) using a non-contact optical measurement method. Forty-two young women (aged 16-20) playing soccer in a sports club in Poland were examined and compared with controls. The spatial coordinates (x, y, z) of the selected body points were determined. Four points (Oc L , Oc R , Pv L and Pv R ) were extracted and used to calculate vectors [Formula: see text] and [Formula: see text] for analysis. The results show that median of the pelvic line angle was positive (Pv R was lower than Pv L ) in both groups. For the habitual posture, the absolute value of the difference between the 25th and 75th percentiles in the pelvic line was almost three times greater among the soccer players than the controls (ratio between soccer players and controls: 2.93). Static postural imbalances in female soccer players require diagnosis of the sacroiliac joints with analysis of lumbar-pelvic system support and inhibition in the context of myofascial connection integration. Exercises can be implemented to stabilize the lumbar-pelvis complex as prophylaxis for spinal overload during the training cycle.

Published

2019

15. Influence of Sacroiliac Bracing on Muscle Activation Strategies During 2 Functional Tasks in Standing-Tolerant and Standing-Intolerant Individuals.

Author

Edgar K, Appel A, Clay N, Engelsgjerd A, Hill L, Leeseberg E, Lyle A, and Nelson-Wong E

Subjects

Adult, Biomechanical Phenomena, Electromyography, Female, Hip physiology, Humans, Lumbosacral Region physiology, Male, Muscle, Skeletal physiology, Range of Motion, Articular, Torso physiology, Young Adult, Braces, Low Back Pain physiopathology, Muscle Contraction, Sacroiliac Joint physiology, Standing Position

Abstract

People who develop low back pain during standing (standing-intolerant) are a subclinical group at risk for clinical low back pain. Standing-intolerant individuals respond favorably to stabilization exercise and may be similar to people with sacroiliac joint dysfunction that respond to stabilization approaches including sacroiliac joint (SIJ) bracing. The purpose was to characterize muscle activation and response to SIJ bracing in standing-tolerant and standing-intolerant individuals during forward flexion and unilateral stance. Trunk and hip electromyography data were collected from 31 participants (17 standing-tolerant and 14 standing-intolerant) while performing these tasks with and without SIJ bracing. Kinematics were captured concurrently and used for movement phase identification. Cross-correlation quantified trunk coactivation and extensor timing during return-to-stand from forward flexion; root mean square amplitude quantified gluteal activity during unilateral stance. The standing-intolerant group had elevated erector spinae-external oblique coactivation without bracing, and erector spinae-internal oblique coactivation with bracing during return-to-stand compared with standing-tolerant individuals. Both groups reversed extensor sequencing during return-to-stand with bracing. Standing-tolerant individuals had higher hip abductor activity in nondominant unilateral stance and increased hip extensor activity with bracing. SIJ bracing could be a useful adjunct to other interventions targeted toward facilitating appropriate muscle activation in standing-intolerant individuals.

Published

2019

16. Physiological in vitro sacroiliac joint motion: a study on three-dimensional posterior pelvic ring kinematics.

Author

Hammer N, Scholze M, Kibsgård T, Klima S, Schleifenbaum S, Seidel T, Werner M, and Grunert R

Subjects

Aged, Aged, 80 and over, Biomechanical Phenomena, Female, Humans, Ilium anatomy & histology, Imaging, Three-Dimensional, Low Back Pain, Male, Movement physiology, Pelvis anatomy & histology, Sacrum anatomy & histology, Range of Motion, Articular physiology, Sacroiliac Joint anatomy & histology, Sacroiliac Joint physiology

Abstract

The sacroiliac joint (SIJ) is a well-known source of low back and pelvic pain, of increasing interest for both conservative and surgical treatment. Alterations in the kinematics of the pelvis have been hypothesized as a major cause of SIJ-related pain. However, definitions of both the range and the extent of physiological movement are controversial, and there are no clear baseline data for pathological alterations. The present study combined a novel biomechanical setup allowing for physiological motion of the lumbosacral transition and pelvis without restricting the SIJ movement in vitro, combined with optical image correlation. Six fresh human pelvises (81 ± 10 years, three females, three males) were tested, with bodyweight-adapted loading applied to the fifth lumbar vertebra and both acetabula. Deformation at the lumbopelvises was determined computationally from three-dimensional image correlation data. Sacroiliac joint motion under the loading of 100% bodyweight primarily consisted of a z-axis rotation (0.16°) and an inferior translation of the sacrum relative to the ilium (0.32 mm). Sacroiliac joint flexion-extension rotations were minute (< 0.02°). Corresponding movements of the SIJ were found at the lumbosacral transition, with an anterior translation of L5 relative to the sacrum of -0.97 mm and an inferior translation of 0.11 mm, respectively. Moreover, a flexion of 1.82° was observed at the lumbosacral transition. Within the innominate bone and at the pubic symphysis, small complementary rotations were seen around a vertical axis, accounting for -0.10° and 0.11°, respectively. Other motions were minute and accompanied by large interindividual variation. The present study provides evidence of different SIJ motions than reported previously when exerted by physiological loading. Sacroiliac joint kinematics were in the sub-degree and sub-millimeter range, in line with previous in vivo and in vitro findings, largely limited to the sagittal rotation and an inferior translation of the sacrum relative to the ilium. This given physiological loading scenario underlines the relevance of the lumbosacral transition when considering the overall motion of the lumbopelvis, and how relatively little the other segments contribute to overall motion., (© 2018 Anatomical Society.)

Published

2019

17. Effects of Cutting the Sacrospinous and Sacrotuberous Ligaments.

Author

Hammer N, Höch A, Klima S, Le Joncour JB, Rouquette C, and Ramezani M

Subjects

Adult, Biomechanical Phenomena, Cadaver, Computer Simulation, Finite Element Analysis, Humans, Lumbar Vertebrae anatomy & histology, Male, Pelvic Bones anatomy & histology, Sacroiliac Joint physiology, Ligaments, Articular anatomy & histology, Sacroiliac Joint anatomy & histology

Abstract

The sacrospinous (SS) and sacrotuberous (ST) ligaments form a complex at the posterior pelvis, with an assumed role as functional stabilizers. Experimental and clinical research has yielded controversial results regarding their function, both proving and disproving their role as pelvic stabilizers. These findings have implications for strategies for treating pelvic injury and pain syndromes. The aim of the present simulation study was to assess the influence of altered ligament function on pelvis motion. A finite elements computer model was used. The two-leg stance was simulated, with the load of body weight applied via the fifth lumbar vertebra and both femora, allowing for nutation of the sacroiliac joint. The in-silico kinematics were validated with in-vitro experiments using the same scenario of load application following SS and ST transection in six human cadavers. Modeling of partial or complete ligament failure caused significant increases in pelvis motion. This effect was most pronounced if the SS and ST were affected with 164% and 182%, followed by the sacroiliac and iliolumbar ligaments with 123% and 147%, and the pubic ligaments with 113% and 119%, for partial and complete disruption, respectively. Simultaneous ligament transection multiplied the effects on pelvis motion by up to 490%. Unilateral ligament injury altered the motion at the pelvis contralaterally. The experiments presented here provide strong evidence for the stabilizing role of the SS and ST. A fortiori, the instability resulting from partial or complete SS and ST injury merits consideration in treatment strategies involving these ligaments as important stabilizers. Clin. Anat. 32:231-237, 2019. © 2018 Wiley Periodicals, Inc., (© 2018 Wiley Periodicals, Inc.)

Published

2019

18. 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.

Author

Ramezani M, Klima S, de la Herverie PLC, Campo J, Le Joncour JB, Rouquette C, Scholze M, and Hammer N

Subjects

Biomechanical Phenomena, Computer Simulation, Finite Element Analysis, Humans, Imaging, Three-Dimensional, Ligaments diagnostic imaging, Models, Biological, Pelvic Bones, Pelvis diagnostic imaging, Sacroiliac Joint diagnostic imaging, Stress, Mechanical, Ligaments physiology, Movement physiology, Pelvis physiology, Sacroiliac Joint physiology

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 approach, using in vitro load deformation data to refine an existing FE model under the same mode of load application and to parametrically assess the influence of altered morphology and mechanical data on the kinematics of the model. Materials and Methods. An osteoligamentous FE model of the pelvis including the fifth lumbar vertebra was used, with highly accurate representations of ligament orientations. Material properties were altered parametrically for bone, cartilage, and ligaments, followed by changes in bone geometry (solid versus 3 and 2 mm shell) and material models (linear elastic, viscoelastic, and hyperelastic isotropic), and the effects of varying ligament fiber orientations were assessed. Results. Elastic modulus changes were more decisive in both linear elastic and viscoelastic bone, cartilage, and ligaments models, especially if shell geometries were used for the pelvic bones. Viscoelastic material properties gave more realistic results. Surprisingly little change was observed as a consequence of altering SIJ ligament orientations. Validation with in vitro experiments using cadavers showed close correlations for movements especially for 3 mm shell viscoelastic model. Discussion. This study has used an inverted validation approach to refine an existing FE model, to give realistic and accurate load deformation data of the osteoligamentous pelvis and showed which variation in the outcomes of the models are attributed to altered material properties and models. The given approach furthermore shows the value of accurate validation and of using the validation data to fine tune FE models.

Published

2019

19. In-silico pelvis and sacroiliac joint motion-A review on published research using numerical analyses.

Author

Hammer N and Klima S

Subjects

Biomechanical Phenomena, Cadaver, Computer Simulation, Finite Element Analysis, Humans, Mathematics, Pelvis anatomy & histology, Sacroiliac Joint anatomy & histology, Motion, Pelvis physiology, Sacroiliac Joint physiology

Abstract

Background: Computational models of the human pelvis have become highly useful tools to assess mechanisms of injury, diagnostics and treatment options. The purpose of this systematic literature review was to summarize existing pelvic computer models, to assess their comparability and the measures taken for experimental validation., Methods: Research on virtual simulations of the posterior pelvis and sacroiliac joint available from the ISI Web of Knowledge, PubMed and Scopus databases available until January 2018 were included., Findings: From a total of 3938 articles, 33 studies matched the criteria. Thirteen studies reported on experimental biomechanics, of which seven were parametric. Thirteen studies focused on pelvic injury and surgery, three were clinical case reports. One study assessed the effects of lumbar surgery on the sacroiliac joint, three studies on diagnostics and the non-surgical treatment of the sacroiliac joint. The mode of load application, geometry, material laws and boundary conditions varied vastly between the studies. The majority excluded the lumbosacral transition as part of pelvic biomechanics, and used isotropic linear elastic material properties. Outcomes of the analyses were reported inconsistently with negative impact on their comparability, and validation was commonly conducted by literature with varying agreement of the loading conditions., Interpretation: Comparability and validation are two major issues of present computational biomechanics of the pelvis. These issues diminish the transferability of the in-silico findings into real-life scenarios. In-vitro cadaveric models remain the realistic standard to account for the present computational analyses which simplify the complex nature of musculoskeletal tissues of the pelvis., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2019

20. Individuals with sacroiliac joint dysfunction display asymmetrical gait and a depressed synergy between muscles providing sacroiliac joint force closure when walking.

Author

Feeney DF, Capobianco RA, Montgomery JR, Morreale J, Grabowski AM, and Enoka RM

Subjects

Adult, Biomechanical Phenomena physiology, Buttocks physiology, Exercise Test methods, Female, Gait physiology, Gait Disorders, Neurologic diagnosis, Humans, Middle Aged, Muscle, Skeletal physiology, Muscle, Skeletal physiopathology, Sacroiliac Joint physiology, Thigh physiology, Electromyography methods, Gait Disorders, Neurologic physiopathology, Sacroiliac Joint physiopathology, Walking physiology

Abstract

Walking is often compromised in individuals with low back and hip disorders, such as sacroiliac joint dysfunction (SIJD). The disorder involves reduced coactivation of the gluteus maximus and contralateral latissimus dorsi, which together provide joint stability during walking. The purpose of our study was to compare the kinematics and contributions of selected muscles to identified synergies during walking between healthy individuals and those with SIJD. Six women with unilateral SIJD and six age-matched healthy controls walked on a force-measuring treadmill at 1 m/s while we recorded kinematics and the activity of 16 muscles with surface EMG. Non-negative matrix factorization was used to identify patterns of EMG activity (muscle synergies). Individuals with SIJD exhibited less hip extension and lower peak vertical ground reaction forces on the affected side than the unaffected side. In contrast to controls, the SIJD group also displayed a depressed muscle synergy between gluteus maximus on the affected side and the contralateral latissimus dorsi. The results indicate that individuals with SIJD exhibited both reduced activation of gluteus maximus during a loading synergy present in walking and greater asymmetry between legs when walking compared with age-matched controls., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

21. Pelvic orthosis effects on posterior pelvis kinematics An in-vitro biomechanical study.

Author

Klima S, Grunert R, Ondruschka B, Scholze M, Seidel T, Werner M, and Hammer N

Subjects

Biomechanical Phenomena, Cadaver, Humans, Lumbosacral Region physiology, Models, Biological, Rotation, Stress, Mechanical, Orthotic Devices, Pelvis physiology, Sacroiliac Joint physiology

Abstract

The sacroiliac joint (SIJ) is a well-known source of low back pain, with increasing interest for both conservative and surgical treatment. Alterations in pelvis kinematics are hypothesized as a contributor to SIJ pain and pelvic orthoses one treatment option, but their effects on the pelvis are poorly understood. Alterations in movement patterns induced by the application of pelvic orthoses were determined in five human cadaveric pelvises. Deformations were obtained from the lumbosacral transition and the bilateral SIJ, using digital image correlation and a customized routine to compute the movements within the pelvis. Significant alterations were found for the movements at the SIJ, in particular a vast increase in axial (x-axis) rotation, accompanied by increased inferior (y-) translation of the sacrum relative to the ilium. Movement patterns at the lumbosacral transition changed, causing increases in axial rotation and decreased inferior translation of L5 relative to S1. Using a physiologic mode of load application gives novel insights into the potential effects of pelvic orthoses. The results of these in-vitro experiments vary markedly from previous experiments with loading limited to two or less axes. Furthermore, the influence of pelvic orthoses on the lumbosacral transition warrants further investigation.

Published

2018

22. Quantifying the force transmission through the pelvic joints during total hip arthroplasty: A pilot cadaveric study.

Author

Bullock MW, De Gregorio M, Danelson KA, Willey JS, Seem ME, Plate JF, Lang JE, and Shields JS

Subjects

Aged, Aged, 80 and over, Arthroplasty, Replacement, Hip methods, Cadaver, Female, Humans, Male, Pilot Projects, Rotation, Arthroplasty, Replacement, Hip adverse effects, Pain, Postoperative etiology, Pelvic Bones physiology, Pubic Symphysis physiology, Sacroiliac Joint physiology

Abstract

Background: Total hip arthroplasty is one of the most successful and cost effective procedures in orthopedics. The purpose of this study is to investigate force transmission through the sacroiliac joint as a possible source of post-operative pain after total hip arthroplasty through the following three questions: Does the ipsilateral sacroiliac joint, contralateral sacroiliac joint, or pubic symphysis experience more force during placement? Does the larger mallet used to seat the implant generate a higher force? Does the specimen's bone density or BMI alter force transmission?, Methods: A solid design acetabular component was impacted into five human cadaver pelves with intact soft tissues. The pressure at both sacroiliac joints and the pubic symphysis was measured during cup placement. This same procedure was replicated using an existing pelvis finite element model to use for comparison., Findings: The location of the peak force for each hammer strike was found to be specimen specific. The finite model results indicated the ipsilateral sacroiliac joint had the highest pressure and strain followed by the pubic symphysis over the course of the full simulation. The heft of the mallet and bone mineral density did not predict force values or locations. The largest median force was generated in extremely obese specimens., Interpretation: Contrary to previous ideas, it is highly unlikely that forces experienced at the pelvic joints are large enough to contribute post-operative pain during impaction of an acetabular component. These results indicate more force is conveyed to the pubic symphysis compared to the sacroiliac joints., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

23. Sex Specific Sacroiliac Joint Biomechanics During Standing Upright: A Finite Element Study.

Author

Joukar A, Shah A, Kiapour A, Vosoughi AS, Duhon B, Agarwal AK, Elgafy H, Ebraheim N, and Goel VK

Subjects

Biomechanical Phenomena physiology, Female, Humans, Low Back Pain diagnostic imaging, Low Back Pain physiopathology, Lumbar Vertebrae anatomy & histology, Lumbar Vertebrae diagnostic imaging, Lumbar Vertebrae physiology, Male, Middle Aged, Range of Motion, Articular physiology, Sacroiliac Joint anatomy & histology, Sacroiliac Joint physiology, Finite Element Analysis, Models, Anatomic, Posture physiology, Sacroiliac Joint diagnostic imaging, Sex Characteristics

Abstract

Study Design: The comparison of sacroiliac joint (SIJ) angular motions, pelvis ligaments strain, load sharing, and stress distribution across the joint for male and female spine-pelvis-femur models using finite element analysis., Objective: To quantify biomechanical parameters at SIJ for all motions for both male and female models., Summary of Background Data: SIJ has been recognized as a main source of pain in 13% to 30% of patients with low back pain. It is shown that the SIJ rotation and translation in different planes are not exceeding 2° to 3° and 2 mm, respectively. Due to limitation of in vivo and in vitro studies, it is difficult to quantify certain biomechanical parameters such as load-sharing and stress distribution across the joint. Finite element analysis is a useful tool which can be utilized to understand the biomechanics of the SIJ., Methods: The validated finite element models of a male and a female lumbar spine-pelvis-femur were developed from computer tomography (CT) scans. The models were used to simulate spine physiological motions. The range of motion, ligament strains, load sharing, and stress distribution across the left and right SIJs were compared between male and female models., Results: Motions data at SIJs demonstrated that female model experienced 86% higher mobility in flexion, 264% in extension, 143% in left bending, and 228% in right bending compared with the male model. The stresses and loads on SIJs were higher on the female model compared with the male model. Female model ligaments underwent larger strains compared with the male model ligaments., Conclusion: Female SIJ had higher mobility, stresses, loads, and pelvis ligament strains compared with the male SIJ which led to higher stress across the joint, especially on the sacrum under identical loading conditions. This could be a possible reason for higher incidence of SIJ pain and pelvic stress fracture in females., Level of Evidence: N/A.

Published

2018

24. Effect of Sacroiliac Joint Mobilization on the Level of Soft Tissue Pain Threshold in Asymptomatic Women.

Author

Sipko T, Paluszak A, and Siudy A

Subjects

Adult, Biomechanical Phenomena physiology, Female, Humans, Pain Measurement methods, Young Adult, Isometric Contraction physiology, Muscle, Skeletal physiology, Pain Threshold, Sacroiliac Joint physiology

Abstract

Objective: This study aimed to evaluate the effect of sacroiliac joint (SIJ) mobilization and/or self-mobilization on the level of soft tissue pain threshold in 21- to 23-year-old asymptomatic women (n = 20)., Methods: The FPIX Wagner Algometer was applied to compute the pressure pain threshold (PPT) over the right and left side of the iliolumbar ligament and lumbar erector spinae (L3). Measurements were taken of the right SIJ before and after a randomized protocol of oscillating mobilization, self-mobilization, and placebo treatment., Results: A main effect of intervention (mobilization, self-mobilization, placebo) was confirmed by analysis of variance, with increases in PPT over the iliolumbar ligament (F = 13.04, P < .05) and erector spinae (F = 12.28, P < .05) on the mobilized side. The Wilcoxon test indicated that SIJ mobilization increased PPT over the iliolumbar ligament (P < .05) and erector spinae (P < .05) on both sides. Self-mobilization increased erector spinae PPT on the exercised side (P < .05), whereas the placebo did not cause any changes in PPT (P > .05)., Conclusion: The study provides evidence of local and global pain modulation resulting from oscillatory mobilization of the SIJ in women without pain symptoms. Self-mobilization of the SIJ has limited analgesic application., (Copyright © 2018. Published by Elsevier Inc.)

Published

2018

25. Diagnosis and Management of Sacroiliac Joint Dysfunction.

Author

Ou-Yang DC, York PJ, Kleck CJ, and Patel VV

Subjects

Humans, Joint Diseases complications, Joint Diseases diagnosis, Joint Diseases therapy, Low Back Pain etiology, Low Back Pain therapy, Sacroiliac Joint anatomy & histology, Sacroiliac Joint physiology, Sacroiliac Joint physiopathology

Published

2017

26. Association of the apparent diffusion coefficient with maturity in adolescent sacroiliac joints.

Author

Bray TJ, Vendhan K, Roberts J, Atkinson D, Punwani S, Sen D, Ioannou Y, and Hall-Craggs MA

Subjects

Adolescent, Age Determination by Skeleton, Child, Diffusion, Female, Humans, Image Enhancement methods, Male, Reproducibility of Results, Sensitivity and Specificity, Statistics as Topic, Aging pathology, Diffusion Magnetic Resonance Imaging methods, Image Interpretation, Computer-Assisted methods, Sacroiliac Joint anatomy & histology, Sacroiliac Joint physiology

Abstract

Purpose: To determine the extent to which apparent diffusion coefficient (ADC) values vary with skeletal maturity in adolescent joints., Materials and Methods: A retrospective study was performed with Institutional Review Board (IRB) approval. We used a picture archiving and communication system (PACS) search to identify and recruit all adolescents who had undergone 1.5T magnetic resonance imaging (MRI) of the sacroiliac joints (SIJs) between January 2010 and June 2015, and had no evidence of sacroiliitis and normal inflammatory markers. In all, 55 individuals were assessed. For each patient, coronal and sagittal images of the sacrum were visually analyzed to determine sacral maturity. Patients were divided into three groups depending on the degree of fusion of the sacral segmental apophyses: "Fused," "Partial," and "Unfused." For each group, SIJ ADC was measured using a linear region-of-interest technique., Results: Mean ADC values were 690 × 10(-6) mm(2) /s in the fused group, 720 × 10(-6) mm(2) /s in the partial group, and 842 × 10(-6) mm(2) /s in the unfused group. ADC values were significantly higher in the unfused group than in the fused group (P = 0.046). ADC values were also higher in unfused subjects than partially fused subjects (P = 0.074)., Conclusion: Joint ADC values are higher in skeletally immature (unfused) patients than in skeletally more mature (fused) patients. ADC values measured in the unfused group overlap with those previously reported in sacroiliitis. These results suggest that ADC measurements in adolescent joints must be interpreted in light of joint maturity. Joint immaturity may lead to misdiagnosis of sacroiliitis, since immature juxta-articular bone may appear similar to inflammation. J. Magn. Reson. Imaging 2016. J. Magn. Reson. Imaging 2016;44:556-564., (© 2016 The Authors Journal of Magnetic Resonance Imaging published by Wiley Periodicals, Inc. on behalf of International Society for Magnetic Resonance in Medicine.)

Published

2016

27. The influence of simulated transversus abdominis muscle force on sacroiliac joint flexibility during asymmetric moment application to the pelvis.

Author

Gnat R, Spoor K, and Pool-Goudzwaard A

Subjects

Aged, Back Muscles, Cadaver, Female, Humans, Male, Middle Aged, Regression Analysis, Rotation, Stress, Mechanical, Abdominal Muscles physiology, Movement, Pelvis physiology, Range of Motion, Articular, Sacroiliac Joint physiology

Abstract

Background: The role of so-called local muscle system in motor control of the lower back and pelvis is a subject of ongoing debate. Prevailing beliefs in stabilizing function of this system were recently challenged. This study investigated the impact of in vitro simulated force of transversely oriented fibres of the transversus abdominis muscle (a part of the local system) on flexibility of the sacroiliac joint during asymmetric moment application to the pelvis., Methods: In 8 embalmed specimens an incremental moment was applied in the sagittal plane to one innominate with respect to the fixed contralateral innominate. Ranges of motion of the sacroiliac joint were recorded using the Vicon Motion Capture System. Load-deformation curves were plotted and flexibility of the sacroiliac joint was calculated separately for anterior and posterior rotations of the innominate, with and without simulated muscle force., Findings: Flexibility of the sacroiliac joint was significantly bigger during anterior rotation of the innominate, as compared to posterior rotation (Anova P<0.05). After application of simulated force of transversus abdominis, flexibility of the joint did not change both during anterior and posterior rotations of the innominate., Interpretation: A lack of a stiffening effect of simulated transversus abdominis force on the sacroiliac joint was demonstrated. Earlier hypotheses suggesting a stiffening influence of this muscle on the pelvis cannot be confirmed. Consistent with previous findings smaller flexibility of the joint recorded during posterior rotation of the innominate may be of clinical importance for physio- and manual therapists. However, major limitations of the study should be acknowledged: in vitro conditions and simulation of only solitary muscle force., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

28. The effect of implant placement on sacroiliac joint range of motion: posterior versus transarticular.

Author

Soriano-Baron H, Lindsey DP, Rodriguez-Martinez N, Reyes PM, Newcomb A, Yerby SA, and Crawford NR

Subjects

Adult, Aged, Biomechanical Phenomena, Female, Humans, Male, Middle Aged, Minimally Invasive Surgical Procedures, Young Adult, Arthroplasty, Replacement methods, Range of Motion, Articular physiology, Sacroiliac Joint physiology, Sacroiliac Joint surgery

Abstract

Study Design: A human cadaveric biomechanical study of 2 sacroiliac (SI) joint fusion implant placement techniques., Objective: To evaluate and compare the biomechanical properties of 2 implant placement techniques for SI joint fusion., Summary of Background Data: Minimally invasive placement of SI joint fusion implants is a potential treatment of SI joint disruptions and degenerative sacroiliitis. Biomechanical studies of screw fixation within the sacrum have shown that placement and trajectory are important in the overall stability of the implant. Although clinical results have been promising, there is the possibility that a more optimal arrangement of implants may exist., Methods: Bilateral SI joints in 7 cadaveric lumbopelvic (L4-pelvis) specimens were tested using a single leg stance model. All joints were tested intact, pubic symphysis sectioned, and treated (3 SI joint fusion implants). The implants were laterally placed using either a posterior or transarticular placement technique. The posterior technique places the implants inline in the inlet view, parallel in the outlet view, and parallel to the posterior sacral body in the lateral view. The transarticular technique places all implants across the articular portion of the SI joint. For all conditions, the range of motion was tested in flexion-extension, lateral bending, and axial rotation., Results: The posterior technique significantly reduced the range of motion in flexion-extension, lateral bending, and axial rotation by 27% ± 24% (P = 0.024), 28% ± 26% (P = 0.028), and 32% ± 21% (P = 0.008), respectively. The transarticular technique significantly reduced the range of motion in flexion-extension, lateral bending, and axial rotation by 41% ± 31% (P = 0.013), 36% ± 38% (P = 0.049), and 36% ± 28% (P = 0.015), respectively. No significant differences were detected between the posterior and transarticular placement techniques (P > 0.25)., Conclusion: Posterior and transarticular placement of SI joint fusion implants stabilized the SI joint in flexion-extension, lateral bending, and axial rotation., Level of Evidence: N/A.

Published

2015

29. Radiostereometric analysis of sacroiliac joint movement and outcomes of pelvic joint fusion.

Author

Kibsgård TJ

Subjects

Adult, Arthralgia surgery, Arthrodesis, Biomechanical Phenomena physiology, Disability Evaluation, Female, Follow-Up Studies, Humans, Middle Aged, Pain Measurement, Patient Selection, Range of Motion, Articular physiology, Sacroiliac Joint physiology, Sacroiliac Joint surgery, Treatment Outcome, Pelvic Bones diagnostic imaging, Pelvic Bones surgery, Pelvic Girdle Pain surgery, Radiostereometric Analysis methods, Sacroiliac Joint diagnostic imaging

Published

2015

30. The middle crossed syndrome - New insights into core function.

Author

Wallden M

Subjects

Female, Humans, Male, Abdominal Muscles physiology, Lumbosacral Region physiology, Musculoskeletal Manipulations methods, Pelvis physiology, Sacroiliac Joint physiology, Sacroiliac Joint physiopathology, Upper Extremity, Weight-Bearing physiology

Published

2014

31. Immediate improvements in activation amplitude levels of the deep abdominal muscle following a sacroiliac joint manipulation during rapid upper limb movement.

Author

Barbosa AW, Silva AM, Silva AF, Martins FL, and Almeida Barbosa MC

Subjects

Adult, Electromyography, Female, Humans, Male, Movement physiology, Muscle Contraction, Posture, Abdominal Muscles physiology, Musculoskeletal Manipulations methods, Sacroiliac Joint physiology, Upper Extremity

Abstract

Objective: To assess the immediate effects on the electrical activity of the transversus abdominis/internal oblique (TrA/IO) muscle during rapid voluntary upper limb movements before and after a sacroiliac joint (SIJ) manipulation., Methods: Twenty healthy subjects who had innominate fixation, assessed by standing flexion test, were recruited. All subjects were submitted to SIJ manipulation and the TrA/IO muscles were evaluated bilaterally, before and after the procedure, through surface electromyography while ten random rapid upper limb flexions or abductions were performed. Normality was accepted, and the paired t-test was used to determine data differences (p < 0.05). The correlations were calculated using Pearson correlation coefficient., Results: All subjects presented an increase of SIJ mobility after manipulation (negative standing flexion test). Significant differences in muscle activation were noted to ipsi- and contralateral TrA/IO recruitment, prior to (A1) and after (A2) the manipulation. The A2 data were statistically greater than those in the A1. The Pearson coefficient revealed a strong correlation between the TrA/IO side and the increase in muscle activation amplitude level. Also, the data showed a moderate to strong correlation between this last variable and the moments of evaluation., Conclusion: The SIJ manipulation immediately improved the electrical activity of the TrA/IO muscle during rapid voluntary upper limb movements, suggesting improved segment stability and an increment to the afferent stimuli in order to affect the motor response., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

32. 3-D finite element analysis of the influence of synovial condition in sacroiliac joint on the load transmission in human pelvic system.

Author

Shi D, Wang F, Wang D, Li X, and Wang Q

Subjects

Adult, Biomechanical Phenomena, Cartilage, Articular anatomy & histology, Cartilage, Articular physiology, Computer Simulation, Elasticity, Femur anatomy & histology, Femur physiology, Humans, Imaging, Three-Dimensional, Ligaments, Articular anatomy & histology, Ligaments, Articular physiology, Male, Movement physiology, Organ Size, Pelvic Bones anatomy & histology, Sacroiliac Joint anatomy & histology, Stress, Mechanical, Finite Element Analysis, Models, Biological, Pelvic Bones physiology, Sacroiliac Joint physiology, Synovial Fluid physiology

Abstract

The anterior part of the sacroiliac joint (SIJ) is a synovial joint, with little gliding and rotary movement between the contact surfaces of SIJ during locomotion. Due to its complex structure, especially when considering the surrounding ligaments, it is difficult to construct an accurate three-dimensional (3-D) finite element model for the human pelvis. Most of the pelvic models in the previous studies were simplified with either SIJ fusing together or without the sacral bone. However, the influence of those simplifications on the load transmission in human pelvis has not been studied, so the reliability of those studies remains unclear. In this study, two 3-D pelvic models were constructed: an SIJ fusing model and an SIJ contacting model. In the SIJ fusing model, the SIJ interfaces were fused together. In the SIJ contacting model, the SIJ interfaces were just in contact with each other without fusion. Compared with the SIJ contacting model, the SIJ fusing model have smaller movements in the SIJ. The stress distribution area in the SIJ fusing model on sacroiliac cartilages was also different. Those differences contributed to the decline of tensile force in the SIJ surrounding ligaments and the re-distribution of stress in the pelvic bones. In addition, the SIJ fusing model was far less sensitive to the increase in modulus of the sacroiliac cartilages, and decrease in stiffness of the ligaments surrounding the SIJ. The presence of synovia in the SIJ had greater influence on the load transmission in the human pelvic system. Therefore, the effect of the presence of synovia should not be neglected when the biomechanical behavior of human pelvis is being studied, especially for those studies related to clinical applications., (Crown Copyright © 2014. Published by Elsevier Ltd. All rights reserved.)

Published

2014

33. Sacroiliac joint dysfunction as a reason for the development of acetabular retroversion: a new theory.

Author

Cibulka MT

Subjects

Humans, Rotation, Acetabulum physiology, Bone Retroversion etiology, Femoracetabular Impingement etiology, Osteoarthritis, Hip etiology, Sacroiliac Joint physiology

Abstract

Acetabular retroversion has been recently implicated as an important factor in the development of femoral acetabular impingement and hip osteoarthritis. The proper function of the hip joint requires that the anatomic features of the acetabulum and femoral head complement one another. In acetabular retroversion, the alignment of the acetabulum is altered where it opens in a posterolaterally instead of anterior direction. Changes in acetabular orientation can occur with alterations in pelvic tilt (anterior/posterior), and pelvic rotation (left/right). An overlooked problem that alters pelvic tilt and rotation, often seen by physical therapists, is sacroiliac joint dysfunction. A unique feature that develops in patients with sacroiliac joint dysfunction (SIJD) is asymmetry between the left and right innominate bones that can alter pelvic tilt and rotation. This article puts forth a theory suggesting that acetabular retroversion may be produced by sacroiliac joint dysfunction.

Published

2014

34. Immediate effects of bilateral sacroiliac joint manipulation on plantar pressure distribution in asymptomatic participants.

Author

Méndez-Sánchez R, González-Iglesias J, Sánchez-Sánchez JL, and Puente-González AS

Subjects

Adolescent, Adult, Double-Blind Method, Female, Humans, Male, Pressure, Young Adult, Foot physiology, Manipulation, Spinal methods, Posture physiology, Sacroiliac Joint physiology

Abstract

Objective: To investigate the immediate effects of manipulation of bilateral sacroiliac joints (SIJs) on the plantar pressure distribution in asymptomatic participants in the standing position., Design: Randomized, controlled, double-blind clinical trial., Participants: Sixty-two asymptomatic men and women (mean age, 20.66±2.56 years) randomly assigned to 2 groups., Interventions: The experimental group underwent mobilization without tension of the hips in the supine position and high-velocity, low-amplitude manipulation in the SIJs bilaterally. The control group underwent only mobilization, without tension of the hips in supine position., Outcome Measures: Pre- and postintervention outcomes measured by an assessor blinded to the treatment allocation of the participants included a baropodometric analysis performed by using a force platform. Baseline between-group differences were examined with a Kolmogorov-Smirnov test. A chi-square test was used for categorical data. Analysis of covariance (ANCOVA) was used to assess differences between groups, with the preintervention value as covariant (95% confidence level)., Results: At baseline, no variables significantly differed between groups. Baropodometric analysis showed statistically significant differences in the location of the maximum pressure point in the experimental group (p=0.028). Pre- and postintervention analysis with ANCOVA showed statistically significant differences between both groups in the left hindfoot load percentage (interaction p=0.0259; ANCOVA p=0.0277), right foot load percentage (ANCOVA p=0.0380), and surface of the right forefoot (interaction p=0.0038). There was also a significant effect in the variables that analyze the entire foot (left foot: surface [interaction p=0.0452], percentage of load [ANCOVA p=0.0295]) and between both groups (right foot: weight [interaction p=0.0070; ANCOVA p=0.0296])., Conclusions: Sacroiliac joint manipulation applied bilaterally in asymptomatic persons resulted in immediate changes in load distribution on plantar support in the standing position. Study limitations and suggestions for future studies are discussed.

Published

2014

35. Anatomy and biomechanics of gluteus maximus and the thoracolumbar fascia at the sacroiliac joint.

Author

Barker PJ, Hapuarachchi KS, Ross JA, Sambaiew E, Ranger TA, and Briggs CA

Subjects

Aged, Aged, 80 and over, Biomechanical Phenomena physiology, Cadaver, Fascia physiology, Female, Hip physiology, Humans, Lumbar Vertebrae physiology, Male, Middle Aged, Models, Anatomic, Models, Biological, Muscle, Skeletal physiology, Sacroiliac Joint physiology, Thoracic Vertebrae physiology, Fascia anatomy & histology, Hip anatomy & histology, Lumbar Vertebrae anatomy & histology, Muscle, Skeletal anatomy & histology, Sacroiliac Joint anatomy & histology, Thoracic Vertebrae anatomy & histology

Abstract

Biomechanical models predict that recruitment of gluteus maximus (GMax) will exert a compressive force across the sacroiliac joint (SIJ), yet this muscle requires morphologic assessment. The aims of this study were to document GMax's proximal attachments and assess their capacity to generate forces including compressive force at the SIJ. In 11 embalmed cadaver limbs, attachments of GMax crossing the SIJ were dissected and their fascicle orientation, length and attachment volume documented. The physiological cross-sectional area (PCSA) of each attachment was calculated along with its estimated maximum force at the SIJ and lumbar spine. GMax fascicles originated from the gluteus medius fascia, ilium, thoracolumbar fascia, erector spinae aponeurosis, sacrum, coccyx, dorsal sacroiliac and sacrotuberous ligaments in all specimens. Their mean fascicle orientation ranged from 32 to 45° below horizontal and mean length from 11 to 18 cm. The mean total PCSA of GMax was 26 cm(2) (range 16-36), of which 70% crossed the SIJ. The average maximum force predicted to be generated by GMax's total attachments crossing each SIJ was 891 N (range 572-1,215), of which 70% (702 N: range 450-1,009) could act perpendicular to the plane of the SIJ. The capacity of GMax to generate an extensor moment at lower lumbar segments was estimated at 4 Nm (range 2-9.5). GMax may generate compressive forces at the SIJ through its bony and fibrous attachments. These may assist effective load transfer between lower limbs and trunk., (Copyright © 2013 Wiley Periodicals, Inc.)

Published

2014

36. Pelvic belt effects on sacroiliac joint ligaments: a computational approach to understand therapeutic effects of pelvic belts.

Author

Sichting F, Rossol J, Soisson O, Klima S, Milani T, and Hammer N

Subjects

Adult, Finite Element Analysis, Humans, Imaging, Three-Dimensional, Male, Reproducibility of Results, Biomechanical Phenomena physiology, Electronic Data Processing, Ligaments, Models, Anatomic, Pelvis physiology, Sacroiliac Joint physiology

Abstract

Background: The sacroiliac joint is a widely described source of low back pain. Therapeutic approaches to relieve pain include the application of pelvic belts. However, the effects of pelvic belts on sacroiliac joint ligaments as potential pain generators are mostly unknown., Objectives: The aim of our study was to analyze the influence of pelvic belts on ligament load by means of a computer model., Study Design: Experimental computer study using a finite element method., Methods: A computer model of the human pelvis was created, comprising bones, ligaments, and cartilage. Detailed geometries, material properties of ligaments, and in-vivo pressure distribution patterns of a pelvic belt were implemented. The effects of pelvic belts on ligament strain were computed in the double-leg stance., Results: Pelvic belts increase sacroiliac joint motion around the sagittal axis but decrease motion around the transverse axis. With pelvic belt application, most of the strained sacroiliac joint ligaments were relieved, especially the sacrospinous, sacrotuberous, and the interosseous sacroiliac ligaments. Sacroiliac joint motion and ligament strains were minute. These results agree with validation data from other studies., Limitations: Assigning homogenous and linear material properties and excluding muscle forces are clear simplifications of the complex reality., Conclusions: Pelvic belts alter sacroiliac joint motion and provide partial relief of ligament strain that is subjectively marked, although minimal in absolute terms. These findings confirm theories that besides being mechanical stabilizers, the sacroiliac joint ligaments are likely involved in neuromuscular feedback mechanisms. The results from our computer model help with unraveling the therapeutic mechanisms of pelvic belts.

Published

2014

37. Growth of the human ilium: the anomalous sacroiliac junction.

Author

Yusof NA, Soames RW, Cunningham CA, and Black SM

Subjects

Adolescent, Age Factors, Bone Development physiology, Child, Child, Preschool, Female, Humans, Ilium physiology, Infant, Infant, Newborn, Locomotion physiology, Male, Puberty physiology, Sacroiliac Joint physiology, Weight-Bearing physiology, Young Adult, Ilium anatomy & histology, Ilium growth & development, Sacroiliac Joint anatomy & histology, Sacroiliac Joint growth & development

Abstract

Despite the major anatomical importance of the human ilium in medicine and forensic investigations, little is understood about its pattern of growth. This study was conducted to investigate the changes in the surface area of the human ilium from birth through to adolescence in 80 human ilia. A photographic image of the pelvic surface of each bone was taken and examined using an image quantification package. The surface areas of four regions of interest were quantified: the auricular, post-auricular (PA), iliac fossa, and whole pelvic surface of the ilium. The results highlight a rapid increase in surface area for all regions in the first few years after birth which continues, albeit at a slower rate, until ∼4 years of age when the rate of growth is further reduced. Although the ilium and its various components continue to grow between 5 years and puberty, the rate of growth is markedly reduced until puberty when growth of the pelvis again increases. Interestingly, analysis of the differential growth of the auricular region compared with the PA region throughout development suggests that the PA region exhibits more advanced growth. This may indicate that its role in structural development for the purposes of preparation and maintenance of bipedal stance and locomotion may have been previously poorly understood., (Copyright © 2013 Wiley Periodicals, Inc.)

Published

2013

38. Computed tomographic method for measurement of inclination angles and motion of the sacroiliac joints in German Shepherd Dogs and Greyhounds.

Author

Saunders FC, Cave NJ, Hartman KM, Gee EK, Worth AJ, Bridges JP, and Hartman AC

Subjects

Animals, Dogs physiology, Female, Male, Observer Variation, Sacroiliac Joint diagnostic imaging, Sacroiliac Joint physiology, Tomography, X-Ray Computed methods, Tomography, X-Ray Computed veterinary, Dogs anatomy & histology, Range of Motion, Articular physiology, Sacroiliac Joint anatomy & histology

Abstract

Objective: To develop an in vivo CT method to measure inclination angles and motion of the sacroiliac joints in dogs of performance breeds., Animals: 10 German Shepherd Dogs and 12 Greyhounds without signs of lumbosacral region pain or neurologic problems., Procedures: CT of the ilium and sacrum was performed in flexed, neutral, and extended hind limb positions. Lines were drawn on volume-rendered images acquired in the flexed and extended positions to measure motion of the ilia relative to the sacra. Inclination angles of the synovial and ligamentous components of the sacroiliac joints were measured on transverse-plane CT images acquired at cranial and caudal locations. Coefficients of variance of measurements were calculated to determine intraobserver variability., Results: Coefficients of variance of measurements ranged from 0.17% to 2.45%. A significantly higher amount of sacroiliac joint rotational motion was detected for German Shepherd Dogs versus Greyhounds. The cranial synovial joint component had a significantly more sagittal orientation in German Shepherd Dogs versus Greyhounds. No significant differences were detected between breeds for x- or y-axis translational motion or caudal synovial or ligamentous joint component inclination angles., Conclusions and Clinical Relevance: The small amounts of sacroiliac joint motion detected in this study may buffer high-frequency vibrations during movement of dogs. Differences detected between breeds may be associated with the predisposition of German Shepherd Dogs to develop lumbosacral region signs of pain, although the biological importance of this finding was not determined. Future studies are warranted to compare sacroiliac joint variables between German Shepherd Dogs with and without lumbosacral region signs of pain.

Published

2013

39. Anatomy of the sacroiliac joints.

Author

Cibulka MT

Subjects

Female, Humans, Male, Ankylosis physiopathology, Ligaments anatomy & histology, Models, Biological, Pelvis anatomy & histology, Sacroiliac Joint anatomy & histology, Sacroiliac Joint physiology, Sex Characteristics

Published

2013

40. Simulated transversus abdominis muscle force does not increase stiffness of the pubic symphysis and innominate bone: an in vitro study.

Author

Gnat R, Spoor K, and Pool-Goudzwaard A

Subjects

Aged, Elasticity, Female, Humans, Male, Models, Anatomic, Movement physiology, Weight-Bearing physiology, Abdominal Muscles physiology, Pelvic Bones physiology, Pelvis physiology, Pubic Symphysis physiology, Sacroiliac Joint physiology

Abstract

Background: The transversus abdominis muscle is thought to exert a stiffening effect on the sacroiliac joints. However, it is unknown whether this muscle is capable of increasing pubic symphysis and innominate bone stiffness during load exerted on the pelvis. The objective of this study is to investigate whether in vitro simulated force of transversely oriented fibres of the transversus abdominis increases stiffness of the pubic symphysis and innominate bone., Methods: In 15 embalmed specimens an incremental moment was applied in the sagittal plane to one innominate with respect to the fixated contralateral innominate. For pubic symphysis motion and innominate bone deformation load-deformation curves were plotted and slopes of adjusted linear regression lines were calculated. The slopes are considered to be a measure of pubic symphysis and innominate bone stiffness. Slopes were tested for significant differences before and after simulation of the transversus abdominis force., Findings: Stiffness of pubic symphysis and innominate bone does not change under influence of simulated force of the transversus abdominis. For pubic symphysis, the slope of the regression line hardly changes, from 0.0341mm/Nm (SD 0.0277) before transversus abdominis force simulation to 0.0342mm/Nm (SD 0.0273) during simulation. For innominate bone, the mean slope increases minimally, from 0.0368mm/Nm (SD 0.0369) to 0.0413mm/Nm (SD 0.0395), respectively., Interpretation: Simulation of the force of a single muscle - transversus abdominis - does not increase stiffness of the pubic symphysis and innominate bone. The hypothesized stiffening influence of the transversus abdominis on the pelvic ring was not confirmed in vitro., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2013

41. Authors' response to the letter to the editors by Professor M. T. Cibulka: a critical interpretation of sacroiliac joint movement studies.

Author

Vleeming A, Schuenke MD, Sturesson B, and Willard FH

Subjects

Female, Humans, Male, Ankylosis physiopathology, Ligaments anatomy & histology, Models, Biological, Pelvis anatomy & histology, Sacroiliac Joint anatomy & histology, Sacroiliac Joint physiology, Sex Characteristics

Published

2013

42. The sacroiliac joint: an overview of its anatomy, function and potential clinical implications.

Author

Vleeming A, Schuenke MD, Masi AT, Carreiro JE, Danneels L, and Willard FH

Subjects

Biological Evolution, Female, Humans, Ligaments physiology, Male, Movement physiology, Sacroiliac Joint embryology, Sacroiliac Joint innervation, Sacroiliac Joint pathology, Ankylosis physiopathology, Ligaments anatomy & histology, Models, Biological, Pelvis anatomy & histology, Sacroiliac Joint anatomy & histology, Sacroiliac Joint physiology, Sex Characteristics

Abstract

This article focuses on the (functional) anatomy and biomechanics of the pelvic girdle and specifically the sacroiliac joints (SIJs). The SIJs are essential for effective load transfer between the spine and legs. The sacrum, pelvis and spine, and the connections to the arms, legs and head, are functionally interrelated through muscular, fascial and ligamentous interconnections. A historical overview is presented on pelvic and especially SIJ research, followed by a general functional anatomical overview of the pelvis. In specific sections, the development and maturation of the SIJ is discussed, and a description of the bony anatomy and sexual morphism of the pelvis and SIJ is debated. The literature on the SIJ ligaments and innervation is discussed, followed by a section on the pathology of the SIJ. Pelvic movement studies are investigated and biomechanical models for SIJ stability analyzed, including examples of insufficient versus excessive sacroiliac force closure., (© 2012 The Authors. Journal of Anatomy © 2012 Anatomical Society.)

Published

2012

43. Precision and accuracy measurement of radiostereometric analysis applied to movement of the sacroiliac joint.

Author

Kibsgård TJ, Røise O, Stuge B, and Röhrl SM

Subjects

Adult, Female, Humans, Male, Middle Aged, Models, Anatomic, Movement, Radiographic Image Interpretation, Computer-Assisted, Reproducibility of Results, Sacroiliac Joint physiology, Phantoms, Imaging, Radiostereometric Analysis standards, Sacroiliac Joint diagnostic imaging

Abstract

Background: Different techniques have been used to quantify the movement of sacroiliac (SI) joints. These include radiostereometric analysis (RSA), but the accuracy and precision of this method have not been properly evaluated and it is unclear how many markers are required and where they should be placed to achieve proper accuracy and precision., Purpose: The purpose of this study was to test accuracy and precision of RSA, applied to the SI joint, in a phantom model and in patients., Methods: We used a plastic phantom attached to a micrometer to obtain a true value of the movement of the SI joint and compared this value with the measured value obtained by RSA; the difference represented the accuracy. The precision of the system was measured by double examination in the phantom and in six patients, and was expressed by a limit of significance (LOS). We analyzed different marker distributions to find optimal marker placement and number of markers needed., Results: The accuracy was high and we identified no systematic errors. The precision of the phantom was high with a LOS less than 0.25° and 0.16 mm for all directions, and in patients, the precision was less than 0.71° for rotations and 0.47 mm translations. No markers were needed in the pubic symphysis to obtain good precision., Conclusions: The accuracy and precision are high when RSA is used to measure movement in the SI joint and support the use of RSA in research of SI joint motion.

Published

2012

44. Innominate 3D motion modeling: biomechanically interesting, but clinically irrelevant.

Author

Ridgeway K and Silvernail J

Subjects

Female, Humans, Male, Imaging, Three-Dimensional, Pelvic Bones physiology, Range of Motion, Articular physiology, Sacroiliac Joint physiology

Published

2012

45. Is there a relationship between core stability, balance and strength in amputee soccer players? A pilot study.

Author

Aytar A, Pekyavas NO, Ergun N, and Karatas M

Subjects

Adolescent, Adult, Biomechanical Phenomena, Crutches, Disability Evaluation, Humans, Male, Muscle Strength Dynamometer, Muscle, Skeletal physiology, Pilot Projects, Range of Motion, Articular physiology, Sacroiliac Joint physiology, Young Adult, Amputees, Athletes, Muscle Strength physiology, Postural Balance physiology, Soccer, Torso physiology

Abstract

Background: The body is a kinetic chain and all the systems and muscle groups play important roles in this chain. Core stability, strength and balance are important components of performance within many sports, and in particular soccer. However, the relationship between these components is not fully understood., Objectives: To investigate the relationship between core stability, balance and strength in amputee soccer players., Study Design: Clinical pilot trial., Methods: Eleven amputee soccer players (mean age = 24.63 ± 6.48 years) participated in our study. A Kinesthetic Ability Trainer device was used to assess balance. Trunk strength was evaluated by isokinetic dynamometer. Gillet test was used to evaluate the sacroiliac joint movement. Modified plank test was used to determined dynamic core stability. Disability was evaluated using the Oswestry Disability Index., Results: The results showed that there was a correlation between flexor isokinetic trunk muscle strength at the velocity of 60°/sec and modified plank test (r = 0.630, p = 0.038). There was a negative correlation between flexor isokinetic trunk muscle strength at the velocity of 180°/sec and Oswestry Disability Index score (r = -0.649, p = 0.031)., Conclusions: Amputee soccer is a sport which is generally performed with one limb balance with crutches. It is therefore perceived that a relationship between balance and sacroiliac mobility, and should be considered for evaluation process and performance analysis in amputee soccer. However, in future studies, we recommend that such evaluations on amputee soccer players should be carried out with increased numbers.

Published

2012

46. Sacroiliac joint and weight distribution to feet: an opinion towards clinical and research practice.

Author

Joseph L, Puangmali A, Pirunsan U, and Das S

Subjects

Female, Humans, Male, Body Weight physiology, Manipulation, Spinal, Sacroiliac Joint physiology

Published

2012

47. Evaluation of changes in pelvic belt tension during 2 weight-bearing functional tasks.

Author

Arumugam A, Milosavljevic S, Woodley S, and Sole G

Subjects

Adult, Biomechanical Phenomena, Cross-Sectional Studies, Exercise Test methods, Humans, Joint Instability prevention & control, Male, Monitoring, Physiologic methods, New Zealand, Pressure, Reference Values, Reproducibility of Results, Sampling Studies, Task Performance and Analysis, Young Adult, Orthotic Devices, Range of Motion, Articular physiology, Sacroiliac Joint physiology, Walking physiology, Weight-Bearing physiology

Abstract

Objective: The purposes of this study were to evaluate changes in pelvic belt tension during 2 weight-bearing functional tasks (transition from bipedal to unipedal stance [BUS] and walking) and to evaluate the reliability and the percentage variation for belt tension scores from trial to trial., Methods: A cross-sectional repeated-measures study was conducted with 10 healthy male participants (mean age, 28.3 ± 8.8years). Participants performed 10 trials of BUS and walking while wearing a nonelastic pelvic compression belt (PCB) applied distal to the anterior superior iliac spines, with a load cell positioned in the center of the belt. The load cell was calibrated using known weights (1-10kg) to define the relationship between the applied tension and voltage change (R(2) = 0.99). Load cell tension values were recorded in voltage signals and then converted to newtons of force using appropriate conversion values (0.012V = 10N). Mean and standard deviation values, intraclass correlation coefficients (ICC 3,1), and percentage standard error of measurements (% SEM) were analyzed for PCB tension recorded during the BUS and walking trials., Results: The mean tension achieved with a PCB was found to be 41.02 (±4.23) N during BUS and 44.07 (±5.80) N during walking. The trial-to-trial reliability (ICC 3,1) was high (ICC ≥0.9), and the variation in PCB tension across 10 trials (% SEM) was 4% or less., Conclusion: The mean tension achieved during the tasks was 44 N or less. The reliability is high, and the variation is low across the trials, which implies that a PCB could be used to produce consistent effects during repetition of the tasks (BUS and walking)., (Copyright © 2012 National University of Health Sciences. Published by Mosby, Inc. All rights reserved.)

Published

2012

48. Inter-tester reliability of non-invasive technique for measurement of innominate motion.

Author

Adhia DB, Bussey MD, Mani R, Jayakaran P, Aldabe D, and Milosavljevic S

Subjects

Adolescent, Adult, Biomechanical Phenomena, Female, Humans, Male, Motion, Observer Variation, Palpation methods, Reference Values, Reproducibility of Results, Sampling Studies, Young Adult, Imaging, Three-Dimensional, Pelvic Bones physiology, Range of Motion, Articular physiology, Sacroiliac Joint physiology

Abstract

Although the complex anatomical orientation and position of the sacroiliac joints (SIJ) has rendered their 3D kinematic evaluation difficult, recent techniques of palpation-digitization of pelvic landmarks using electromagnetic tracking device have been able to accurately and non-invasively quantify the subtle SIJ kinematics. While this technique demonstrates radiographic validity and high test-retest reliability, it is yet to be assessed with regards to inter-tester and trial-to-trial reliability. A single-group repeated measure design using 4 testers was conducted to evaluate the inter-tester and trial-to-trial reliability of palpation-digitization technique for innominate vector length measurements using the Polhemus electromagnetic tracking device. Fourteen young, healthy adults between the ages of 18-40 years participated in the study. The innominate vector length was calculated from 3D co-ordinates of palpated and digitized pelvic landmarks in two test positions of hip. A sensitivity analysis was conducted to determine how palpation-digitization errors for pelvic landmarks impacts on innominate angle calculation. Reliability indexes of Intraclass correlation coefficient (ICC) (≥0.97) and Standard error of measurement (SEM) (≤2.02 mm) demonstrated very high inter-tester and trial-to-trial reliability and accuracy of palpation-digitization technique for innominate vector length measurements, irrespective of the two test positions. A higher consistency of measurements was obtained within-testers as compared to between testers, and sensitivity analysis demonstrated a negligible influence of palpation-digitization errors on the innominate angle measurements. The results support clinical and research utility of this technique for non-invasive kinematic evaluation of SIJ motion for this population. Further research on the use of this palpation-digitization technique in symptomatic population is warranted., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2012

49. Sacroiliac joint manipulation attenuates alpha-motoneuron activity in healthy women: a quasi-experimental study.

Author

Orakifar N, Kamali F, Pirouzi S, and Jamshidi F

Subjects

Adolescent, Adult, Analysis of Variance, Electromyography methods, Female, Humans, Motor Activity physiology, Pain Threshold, Reference Values, Research Design, Sampling Studies, Young Adult, H-Reflex physiology, Manipulation, Spinal methods, Motor Neurons physiology, Sacroiliac Joint physiology

Abstract

Objective: To determine whether sacroiliac joint (SIJ) manipulation decreases α-motoneuron activity and increases the pressure pain threshold (PPT) over the posterior superior iliac spine (PSIS) in healthy women., Design: Quasi-experimental study., Setting: A university medical center., Participants: Healthy young women (N=20) aged 18 to 30 years were recruited from among the students of a university medical center after a request for volunteers., Interventions: Joint manipulation consisted of the supine rotational glide manipulation for the sacroiliac region. PPT measurements from the PSIS and Hoffman-reflex (H-reflex) amplitudes from the tibial nerve on the same side were recorded before and after joint manipulation. PPT was monitored for 15 minutes and H-reflex for 20 minutes after the procedure., Main Outcome Measures: Changes in tibial nerve H-reflex amplitude and PPT values after SIJ manipulation., Results: SIJ manipulation attenuated α-motoneuronal activity significantly (P<.05) but transiently, since the decrease was seen only for 20 seconds after the intervention. There was no positive significant difference in the PPT after SIJ manipulation at any time during postintervention follow-up., Conclusions: SIJ manipulation produced a transient attenuation of α-motoneuron excitability in healthy women. These findings demonstrate that our manipulation technique can lead to a short-term reduction in muscle tone as a result of changes in sensory discharge, predominantly in la afferents. SIJ manipulation did not significantly affect the PPT in healthy women., (Copyright © 2012 American Congress of Rehabilitation Medicine. Published by Elsevier Inc. All rights reserved.)

Published

2012

50. A finite element analysis of sacroiliac joint ligaments in response to different loading conditions.

Author

Eichenseer PH, Sybert DR, and Cotton JR

Subjects

Biomechanical Phenomena, Elastic Modulus, Humans, Imaging, Three-Dimensional, Ligaments diagnostic imaging, Ligaments physiology, Male, Range of Motion, Articular, Sacroiliac Joint diagnostic imaging, Stress, Mechanical, Tomography, X-Ray Computed, Torque, Weight-Bearing, Computer Simulation, Finite Element Analysis, Models, Anatomic, Models, Biological, Sacroiliac Joint physiology

Abstract

Study Design: A finite element analysis of the sacroiliac joint (SIJ) and its associated ligaments utilizing a three-dimensional model constructed from computed tomography scans., Objective: To characterize the sacroiliac ligament strains in response to flexion, extension, and axial rotation loads and quantify the changes in SIJ stress and angular displacement in response to changes in ligament stiffness., Summary of Background Data: The SIJ may be a major contributor to low back pain in up to 13% to 30% of patients. States of ligament laxity are often associated with hypermobility and possibly pain of SIJ origin. The mechanism by which the SIJ generates pain is both controversial and poorly understood., Methods: A finite element model of the human pelvis, SIJs, and sacroiliac ligaments was constructed from computed tomography scans. Ligament stiffnesses were altered and the SIJ stresses were compared with the original case. For simulated flexion, extension, and axial rotation scenarios, sacroiliac ligament strains were characterized and compared., Results: Sacroiliac joint stress and angular motion increases as ligament stiffness decreases. Periarticular intraligamentous strains vary depending on the magnitude and direction of the applied loads. Maximum ligamentous strains occur at the interosseous sacroiliac ligament., Conclusion: The sacroiliac ligaments function to constrain the SIJ and decrease stress across the SIJ for different load scenarios. Decreasing sacroiliac ligament stiffness leads to both increased joint motion and stress.

Published

2011