与骨接触模型相比，纳入髋臼唇会降低模拟的髋关节活动范围。

Inclusion of the Acetabular Labrum Reduces Simulated Range of Motion of the Hip Compared With Bone Contact Models.

作者信息

Atkins Penny R, Hananouchi Takehito, Anderson Andrew E, Aoki Stephen K

机构信息

Department of Orthopaedics, University of Utah, Salt Lake City, Utah, U.S.A.

Department of Bioengineering, University of Utah, Salt Lake City, Utah, U.S.A.

出版信息

Arthrosc Sports Med Rehabil. 2020 Oct 6;2(6):e779-e787. doi: 10.1016/j.asmr.2020.07.014. eCollection 2020 Dec.

DOI:10.1016/j.asmr.2020.07.014

PMID:33376992

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7754612/

Abstract

PURPOSE

To determine whether inclusion of the acetabular labrum affects the maximum range of motion (ROM) during simulation of the flexion-adduction-internal rotation impingement examination.

METHODS

Three-dimensional surface reconstructions of the femur, hemi-pelvis, and labrum from computed tomography arthrography images of 19 participants were used to simulate maximum ROM during the flexion-adduction-internal rotation examination. Simulations were conducted for positions between 70° and 110° flexion and 0° and 20° adduction at 10° increments to measure maximum internal rotation and the position of contact between the femur and acetabular rim (bone-to-bone) or the femur and labrum (bone-to-labrum). Internal rotation angles and clock-face position values were compared between the 2 contact scenarios for each position.

RESULTS

The ROM in the bone-to-labrum contact model was significantly less than that of the bone-to-bone contact model for all evaluated positions ( ≤ .001, except at 110° flexion and 20° adduction, = .114). The inclusion of the labrum reduced internal rotation by a median [interquartile range] of 18 [15, 25]° while altering the position of contact on the acetabular clock-face by -0:01 [-0:27, 0:16]. The variability in contact location for the bone-to-labrum contact scenario was nearly double that of the bone-to-bone contact scenario, as indicated by the interquartile range.

CONCLUSIONS

Inclusion of the anatomy of the acetabular labrum in collision models used to simulate impingement examinations reduced the internal rotation ROM by approximately 20° and increased variability in the location of contact relative to the acetabular rim.

CLINICAL RELEVANCE

While standard bone-to-bone contact ROM simulations may be informative with respect to the relative change in ROM based on a surgical intervention (e.g., pre- and post-osteochondroplasty for cam-type femoroacetabular impingement), they may not accurately represent the clinical ROM of the joint or the kinematic position at which damage may occur due to shape mismatch between the femur and acetabulum.

摘要

目的

确定在模拟屈曲 - 内收 - 内旋撞击试验时，髋臼唇的纳入是否会影响最大活动范围（ROM）。

方法

利用19名参与者的计算机断层扫描关节造影图像对股骨、半骨盆和髋臼唇进行三维表面重建，以模拟屈曲 - 内收 - 内旋试验中的最大ROM。在屈曲70°至110°以及内收0°至20°之间，以10°的增量进行模拟，以测量最大内旋以及股骨与髋臼边缘（骨对骨）或股骨与髋臼唇（骨对唇）之间的接触位置。比较每个位置的两种接触情况之间的内旋角度和钟面位置值。

结果

在所有评估位置，骨对唇接触模型中的ROM均显著小于骨对骨接触模型（≤.001，110°屈曲和20°内收时除外，=.114）。髋臼唇的纳入使内旋减少，中位数[四分位间距]为18[15,25]°，同时使髋臼钟面上的接触位置改变了 -0:01[-0:27,0:16]。如四分位间距所示，骨对唇接触情况的接触位置变异性几乎是骨对骨接触情况的两倍。

结论

在用于模拟撞击试验的碰撞模型中纳入髋臼唇的解剖结构，使内旋ROM减少了约20°，并增加了相对于髋臼边缘的接触位置变异性。

临床意义

虽然标准的骨对骨接触ROM模拟对于基于手术干预的ROM相对变化（例如凸轮型股骨髋臼撞击的骨软骨成形术前和术后）可能具有参考价值，但它们可能无法准确代表关节的临床ROM或由于股骨和髋臼形状不匹配可能发生损伤的运动学位置。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0093/7754612/c8b468246d50/gr1.jpg

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与骨接触模型相比，纳入髋臼唇会降低模拟的髋关节活动范围。

Inclusion of the Acetabular Labrum Reduces Simulated Range of Motion of the Hip Compared With Bone Contact Models.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

CLINICAL RELEVANCE

目的

方法

结果

结论

临床意义

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