Effect of Decreasing the Anterior Pelvic Tilt on Range of Motion in Femoroacetabular Impingement: A Computer-Simulation Study

Kobayashi, Naomi; Higashihira, Shota; Kitayama, Haruna; Kamono, Emi; Yukizawa, Yohei; Oishi, Takayuki; Takagawa, Shu; Honda, Hideki; Choe, Han-Cheol; Inaba, Yutaka

doi:10.1177/2325967121999464

Cited by 12 publications

(11 citation statements)

References 28 publications

(36 reference statements)

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“…Computer simulation for kinematics is a powerful tool that has been applied to virtual osteochondroplasty in femoroacetabular impingement (FAI), 9 identification of the impingement point, 10 and assessments of the effect of pelvic mobility in FAI. 11,12 While there are several limitations, as listed below, computer simulation is effective, particularly when used to quantify ROM and bony impingement. To the best of our knowledge, no previous study has applied computer simulation analysis for evaluation after shelf acetabuloplasty.…”

Section: Discussionmentioning

confidence: 99%

Shelf acetabuloplasty may inhibit range of motion: A computer simulation analysis

Miyajima,

Kobayashi,

Yukizawa

et al. 2023

Journal Orthopaedic Research

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Shelf acetabuloplasty has been performed in patients with developmental dysplasia of the hip (DDH); however, the appropriate position of the shelf has not been determined, particularly with respect to avoiding range of motion (ROM) loss. The aim of this study was to investigate the frequency of ROM inhibition and the influence of 3D position of the shelf following actual shelf acetabuloplasty and virtual surgery using computer simulation analysis. CT data from 15 patients with DDH who underwent shelf acetabuloplasty were collected between August 2019 and February 2022. 3D models of a hip joint were constructed using Zed Hip®︎. Maximal internal rotation (MIR) at 45° and 90° flexion was measured in each patient. The frequency and position of ROM inhibition was determined in a real postoperative model virtually. In addition, a second analysis using virtual acetabuloplasty was performed. Upon placing the shelf, three patterns were provided for the following four parameters: height, coronal inclination, center‐edge angle (CEA), and anteroposterior position. The predictors for ROM inhibition were analyzed using a logistic regression model.　In the actual postoperative model, a limitation of MIR at 90° and 45° of flexion occurred in 60% and 66.7% of patients, respectively. A higher CEA and anterior position are major factors limiting MIR. The analysis of the virtual shelf acetabuloplasty model revealed that anterior position and CEA were significant factors causing ROM inhibition. As for clinical significance, the results of the current study indicated the optimal location of the shelf to avoid iatrogenic impingement after shelf acetabuloplasty.This article is protected by copyright. All rights reserved.

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Section: Discussionmentioning

confidence: 99%

Shelf acetabuloplasty may inhibit range of motion: A computer simulation analysis

Miyajima,

Kobayashi,

Yukizawa

et al. 2023

Journal Orthopaedic Research

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“…Given these results, we examined the effects of a 10° change in pelvic tilt. In a previous study, we conducted a dynamic simulation analysis to compare improvements in ROM (ie, MIR) between cam resection models and models of a 10° change in St. 16 Cam resection models were based on postoperative CT scans (cam resection surgery). We showed that a change in posterior St of 10° was as effective as cam resection at reducing impingement; however, a change of only 5° was not as effective as cam resection.…”

Section: Discussionmentioning

confidence: 99%

“…The clinical question arising here was “Should physical therapy that considers 3-dimensional (3D) complex mobility rather than just sagittal mobility be performed in patients with FAI?” The purpose of this study was to use simulation analysis to examine and compare the effect of 3D changes versus a single-plane change (ie, sagittal tilt [St]) in pelvic movement on hip ROM in patients with FAI. Because the effect of sagittal posterior tilt on improving hip ROM has been well demonstrated, 16,33,37 we focused on the comparison between complex 3D change and sagittal posterior tilt change. We hypothesized that the combination of 3D planar mobility (ie, St, axial rotation [Ar], and coronal tilt [Ct]) would lead to more effective resolution of biomechanical impingement, with small changes (5°) in 3D motion rather than a large change (10°) in a single direction (ie, sagittal).…”

mentioning

confidence: 99%

“…9,12,13,40 For instance, trunk stabilization exercises improve clinical outcomes for FAI. 2 Similarly, changing pelvic position suitably may contribute to resolution of FAI 16,27 ; however, it is difficult to measure mobility, particularly in 3 dimensions.…”

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confidence: 99%

“…33 In addition, a change in posterior sagittal pelvic tilt of 10° is as effective at improving range of motion (ROM) as cam resection, at least in a computer simulation setting. 16 However, in such cases, a large change in tilt in only a single plane (ie, the sagittal plane in the case of posterior tilt) may be limited and unnatural in terms of pelvic anatomic mobility. 41 It may be difficult to change the pelvic tilt by 10° through physical therapy alone.…”

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Effect of 3-Dimensional Versus Single-Plane Changes in Pelvic Dynamics on Range of Motion in Hips With Femoroacetabular Impingement: A Computer Simulation Analysis

Honda

Kobayashi

Kamono

et al. 2022

Orthopaedic Journal of Sports Medicine

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Background: Femoroacetabular impingement (FAI) is primarily caused by bony impingement between the acetabulum and femoral neck during hip motion. Increasing posterior pelvic tilt improves hip range of motion in patients with FAI. Purpose: To use computer simulation analysis to compare the effects of 3-dimensional (3D) changes in pelvic tilt (sagittal tilt [St], axial rotation, and coronal tilt) with changes in a single plane (St), with the aim of improving range of motion in patients with FAI. Study Design: Controlled laboratory study. Methods: We evaluated 43 patients with FAI treated by arthroscopic cam resection. A 3D simulation was used to construct the following pelvic models: a 5° and 10° increase posteriorly in St (St5° and St10°) and a combined 5° change in St, axial rotation, and coronal tilt (Complex5°) from the baseline of the anterior pelvic plane. Improvements in maximum internal rotation (MIR) at 45°, 70°, and 90° of hip flexion and improvements in maximum flexion with no internal rotation were compared among the St5°, St10°, and Complex5° models. The pelvic models of each single-plane change of 5° and 10° were evaluated in the same simulation. Results: At 90° and 70°, there was a significant difference between the Complex5° and St10° models with respect to improvement in MIR ( P = .004 at 90° of flexion; P = .017 at 70° of flexion). There was no significant difference in MIR at 45° of flexion ( P = .71) or in maximum flexion ( P = .42). Conclusion: At 70° and 90° of hip flexion, a combined change in 3D pelvic alignment of 5° (ie, St, axial rotation, and coronal tilt) was more effective in improving hip MIR than a 10° change in St only. Clinical Relevance: Effective physical therapy for FAI should address pelvic motion in all 3 planes rather than in a single plane.

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A New Clinical Examination Algorithm to Prescribe Conservative Treatment in People with Hip-Related Pain

González-de-la-Flor

2024

Pain Ther

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Hip-related pain is a common issue in active adults affecting their quality of life, mobility, and overall function, and it can lead to persistent disability. However, diagnosing hip-related pain is challenging due to the many potential sources and causes, including intra-articular and extra-articular pathology, and referred pain from other areas (lumbar or groin related pain). To address this, there is a need for a clinical algorithm based on the best available evidence and expert consensus. This algorithm could guide healthcare professionals in assessing and managing patients with hip-related pain, during the diagnosis, test selection, intervention, monitoring, and promoting collaboration among various healthcare providers. This clinical algorithm for hip-related pain is a comprehensive, flexible, adaptable to different settings, and regularly updated to incorporate new research findings. This literature review aims to establish a clinical algorithm specifically for prescribing exercise treatment to patients with hip-related pain, addressing their individual needs and enhancing their overall care.

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Effect of Decreasing the Anterior Pelvic Tilt on Range of Motion in Femoroacetabular Impingement: A Computer-Simulation Study

Cited by 12 publications

References 28 publications

Shelf acetabuloplasty may inhibit range of motion: A computer simulation analysis

Shelf acetabuloplasty may inhibit range of motion: A computer simulation analysis

Effect of 3-Dimensional Versus Single-Plane Changes in Pelvic Dynamics on Range of Motion in Hips With Femoroacetabular Impingement: A Computer Simulation Analysis

A New Clinical Examination Algorithm to Prescribe Conservative Treatment in People with Hip-Related Pain

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