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Acetabular and Femoral Anteversions in Standing Position are Outside the Proposed Safe Zone After Total Hip Arthroplasty.站立位髋臼和股骨前倾角超出全髋关节置换术后建议的安全区。
J Arthroplasty. 2017 Nov;32(11):3550-3556. doi: 10.1016/j.arth.2017.06.023. Epub 2017 Jun 20.
9
Spinopelvic mobility and acetabular component position for total hip arthroplasty.全髋关节置换术中的脊柱骨盆活动度与髋臼假体位置
Bone Joint J. 2017 Jan;99-B(1 Supple A):37-45. doi: 10.1302/0301-620X.99B1.BJJ-2016-0415.R1.
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Current standard rules of combined anteversion prevent prosthetic impingement but ignore osseous contact in total hip arthroplasty.目前全髋关节置换术中联合前倾角的标准规则可防止假体撞击,但忽略了骨接触情况。
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髋臼杯和股骨柄前倾角是否同样影响联合前倾角?

Is Combined Anteversion Equally Affected by Acetabular Cup and Femoral Stem Anteversion?

机构信息

Department of Orthopaedic Surgery, University of Michigan, Ann Arbor, MI.

Department of Orthopaedic Surgery, New York University, New York, NY.

出版信息

J Arthroplasty. 2021 Jul;36(7):2393-2401. doi: 10.1016/j.arth.2021.02.017. Epub 2021 Feb 9.

DOI:10.1016/j.arth.2021.02.017
PMID:33653630
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8197737/
Abstract

BACKGROUND

To create a safe zone, an understanding of the combined femoral and acetabular mating during hip motion is required. We investigated the position of the femoral head inside the acetabular liner during simulated hip motion. We hypothesized that cup and stem anteversions do not equally affect hip motion and combined hip anteversion.

METHODS

Hip implant motion was simulated in standing, sitting, sit-to-stand, bending forward, squatting, and pivoting positions using the MATLAB software. A line passing through the center of the stem neck and the center of the prosthetic head exits at the polar axis (PA) of the prosthetic head. When the prosthetic head and liner are parallel, the PA faces the center of the liner (PA position = 0, 0). By simulating hip motion in 1-degree increments, the maximum distance of the PA from the liner center and the direction of its movement were measured (polar coordination system).

RESULTS

The effect of modifying cup and stem anteversion on the direction and distance of the PA's change inside the acetabular liner was different. Stem anteversion influenced the PA position inside the liner more than cup anteversion during sitting, sit-to-stand, squatting, and bending forward (P = .0001). This effect was evident even when comparing stems with different neck angles (P = .0001).

CONCLUSION

Cup anteversion, stem anteversion, and stem neck-shaft angle affected the PA position inside the liner and combined anteversion in different ways. Thus, focusing on cup orientation alone when assessing hip motion during different daily activities is inadequate.

摘要

背景

为了创建安全区域,需要了解髋关节运动过程中股骨和髋臼的联合匹配情况。我们研究了模拟髋关节运动过程中股骨头在髋臼衬垫内的位置。我们假设杯和柄前倾角不会同等影响髋关节运动和联合前倾角。

方法

使用 MATLAB 软件模拟站立、坐姿、坐立位、前倾、深蹲和旋转位置的髋关节植入物运动。一条穿过柄颈中心和假体头中心的线在假体头的极轴(PA)处退出。当假体头和衬垫平行时,PA 面向衬垫中心(PA 位置=0,0)。通过以 1 度增量模拟髋关节运动,测量 PA 距衬垫中心的最大距离及其运动方向(极坐标系)。

结果

改变杯和柄前倾角对 PA 在髋臼衬垫内的方向和变化距离的影响不同。在坐姿、坐立位、深蹲和前倾时,柄前倾角比杯前倾角更能影响 PA 在衬垫内的位置(P=.0001)。即使比较具有不同颈角度的柄(P=.0001),这种影响也是明显的。

结论

杯前倾角、柄前倾角和柄颈轴角度以不同的方式影响 PA 在衬垫内的位置和联合前倾角。因此,在评估不同日常活动中髋关节运动时,仅关注杯的方位是不够的。