使用三维模型实现股骨柄假体目标前倾角

Achieving Target Cemented Femoral Stem Anteversion Using a 3-Dimensional Model.

作者信息

Rebgetz Paul, McCarthy Tom, McLaren Hamish, Wilson Matthew J, Whitehouse Sarah L, Crawford Ross W

机构信息

Orthopaedic Research Unit, School of Mechanical, Medical & Process Engineering, Faculty of Engineering, Queensland University of Technology, The Prince Charles Hospital, Chermside, Queensland, Australia.

Stryker Corporation, Mahwah, NJ, USA.

出版信息

Arthroplast Today. 2023 Jan 14;19:101084. doi: 10.1016/j.artd.2022.101084. eCollection 2023 Feb.

DOI:10.1016/j.artd.2022.101084

PMID:36688094

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9852927/

Abstract

BACKGROUND

Total hip arthroplasty aims to provide patients with a pain-free and stable hip joint through optimization of biomechanics such as femoral anteversion. There are studies evaluating the limits of cementless stem version, however, none assessing the range of version achieved by a cemented collarless stem. A computed tomography (CT)-based study was performed, utilizing a contemporary robotic planning platform to assess the amount of rotation afforded by a cemented collarless stem, whilst maintaining native biomechanics.

METHODS

The study utilized 36 cadaveric hips. All had CT scans of the pelvis and hip joints. The CT scans were then loaded into a contemporary robotic planning platform. A stem that restored the patients native femoral offset was selected and positioned in the virtual femur. The stem was rotated while checking for cortical contact at the level of the neck cut. Cortical contact was regarded as the rotation limit, assessed in both anteversion and retroversion. Target range for stem anteversion was 10°-20°. Failure to achieve target version triggered a sequence of adjustments to simulate surgical decisions.

RESULTS

Native femoral offset and target version range was obtained in 29 of 36 (80.5%) cases. Following an adjustment sequence, 4 further stems achieved target anteversion with a compromise in offset of 2.3 mm. Overall 33 of 36 (91.7%) stems achieved the target anteversion range of 10°-20°.

CONCLUSIONS

Target femoral stem anteversion can be achieved using a cemented, collarless stem in a CT-based 3-dimensional model in 80.5% of hips. With a small compromise in offset (mean 2.3 mm), this can be increased to 91.7%.

摘要

背景

全髋关节置换术旨在通过优化生物力学（如股骨前倾角）为患者提供无痛且稳定的髋关节。有研究评估了非骨水泥柄的角度限制，然而，尚无研究评估无领骨水泥柄所能达到的角度范围。本研究基于计算机断层扫描（CT），利用当代机器人规划平台评估无领骨水泥柄在保持自然生物力学的同时所能提供的旋转量。

方法

本研究使用了36具尸体髋关节。所有髋关节均进行了骨盆和髋关节的CT扫描。然后将CT扫描数据加载到当代机器人规划平台中。选择一个能恢复患者自然股骨偏心距的柄并将其放置在虚拟股骨中。在检查颈切平面的皮质接触情况时旋转柄。皮质接触被视为旋转极限，在前倾和后倾方向均进行评估。柄前倾的目标范围为10°-20°。未能达到目标角度会触发一系列调整以模拟手术决策。

结果

36例中有29例（80.5%）获得了自然股骨偏心距和目标角度范围。经过调整序列后，又有4个柄达到了目标前倾角度，但偏心距有2.3 mm的妥协。总体而言，36个柄中有33个（91.7%）达到了10°-20°的目标前倾角度范围。

结论

在基于CT的三维模型中，使用无领骨水泥柄在80.5%的髋关节中可实现目标股骨柄前倾角度。在偏心距有小的妥协（平均2.3 mm）的情况下，这一比例可提高到91.7%。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7905/9852927/ee398110043a/gr1.jpg

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使用三维模型实现股骨柄假体目标前倾角

Achieving Target Cemented Femoral Stem Anteversion Using a 3-Dimensional Model.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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