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本文引用的文献

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Biomechanical Comparison of Periprosthetic Femoral Fracture Risk in Three Femoral Components in a Sawbone Model.在仿生模型中比较三种股骨假体的股骨假体周围骨折风险的生物力学比较。
J Arthroplasty. 2021 Jan;36(1):387-394. doi: 10.1016/j.arth.2020.07.061. Epub 2020 Jul 30.
2
Muscle and Joint Function After Anatomic and Reverse Total Shoulder Arthroplasty Using a Modular Shoulder Prosthesis.解剖型和反式全肩关节置换术后使用模块化肩关节假体的肌肉和关节功能。
J Orthop Res. 2019 Sep;37(9):1988-2003. doi: 10.1002/jor.24335. Epub 2019 Jun 18.
3
Analysis of complications of reverse total shoulder arthroplasty.反式全肩关节置换术并发症分析
Joints. 2015 Nov 3;3(2):62-6. doi: 10.11138/jts/2015.3.2.062. eCollection 2015 Apr-Jun.
4
Prosthesis design and placement in reverse total shoulder arthroplasty.反向全肩关节置换术中的假体设计与放置
J Orthop Surg Res. 2015 Jul 2;10:101. doi: 10.1186/s13018-015-0244-2.
5
Reverse shoulder glenoid baseplate fixation: a comparison of flat-back versus curved-back designs and oval versus circular designs with 2 different offset glenospheres.反式肩关节盂基板固定:平背与曲背设计以及椭圆形与圆形设计搭配两种不同偏移量的球头盂的比较
J Shoulder Elbow Surg. 2014 Sep;23(9):1388-94. doi: 10.1016/j.jse.2014.01.050. Epub 2014 Apr 13.
6
Composite bone models in orthopaedic surgery research and education.骨科手术研究与教育中的复合骨模型。
J Am Acad Orthop Surg. 2014 Feb;22(2):111-20. doi: 10.5435/JAAOS-22-02-111.
7
Reverse shoulder glenoid loosening: an evaluation of the initial fixation associated with six different reverse shoulder designs.反式肩关节盂松动:对与六种不同反式肩关节设计相关的初始固定的评估
Bull Hosp Jt Dis (2013). 2013;71 Suppl 2:S12-7.
8
Complications in reverse total shoulder arthroplasty.反式全肩关节置换术的并发症。
J Am Acad Orthop Surg. 2011 Jul;19(7):439-49.
9
Muscle and joint-contact loading at the glenohumeral joint after reverse total shoulder arthroplasty.反式全肩关节置换术后盂肱关节的肌肉和关节接触载荷。
J Orthop Res. 2011 Dec;29(12):1850-8. doi: 10.1002/jor.21437. Epub 2011 May 12.
10
Problems, complications, reoperations, and revisions in reverse total shoulder arthroplasty: a systematic review.反向全肩关节置换术的问题、并发症、再次手术及翻修术:一项系统综述
J Shoulder Elbow Surg. 2011 Jan;20(1):146-57. doi: 10.1016/j.jse.2010.08.001.

使用直接剪切力方法评估反向全肩关节置换设计中肩胛盂基板的初始微动和固定强度。

Assessment of glenoid baseplate initial micromotion and fixation strength in reverse total shoulder arthroplasty designs using a direct shear force methodology.

作者信息

Parr Therese E, Anderson Jennifer K, Marionneaux Alan M, Tokish John M, Tolan Stefan J, Hawkins Richard J, Kissenberth Michael J, DesJardins John D

机构信息

Department of Bioengineering, Clemson University, Clemson, SC, USA.

Steadman Hawkins Clinic of the Carolinas, Prisma Health, Greenville, SC, USA.

出版信息

Shoulder Elbow. 2022 Dec;14(6):606-614. doi: 10.1177/17585732211032945. Epub 2021 Jul 19.

DOI:10.1177/17585732211032945
PMID:36479005
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9720869/
Abstract

BACKGROUND

In a reverse total shoulder arthroplasty, the altered glenohumeral joint center of rotation subjects the glenoid baseplate to increased shear forces and potential loosening.

METHODS

This study examined glenoid baseplate micromotion and initial fixation strength with the application of direct shear force in a Sawbone model. The reverse total shoulder arthroplasty systems examined were the DJO Reverse® Shoulder Prosthesis, the Exactech Equinoxe® Reverse System, and the Tornier Aequalis Reverse Shoulder Prosthesis. Specimens were cyclically tested with increasing shear loads until 150 µm of displacement between the implant and glenoid was achieved, and subsequently until failure, classified as either 1 cm of implant/glenoid displacement or fracture.

RESULTS

The average load withstood for the 150 µm threshold for DJO, Tornier, and Exactech was 460 ± 88 N, 525 ± 100 N, and 585 ± 160 N, respectively. The average total load at device failure for DJO, Tornier, and Exactech was 980 ± 260 N, 1260 ± 120 N, and 1350 ± 230 N, respectively.

DISCUSSION

The Exactech implant design trended toward requiring more load to induce micromotion at each threshold and to induce device failure, most commonly seen as inferior screw pull out. This study proposes design features that may enhance fixation and suggests little risk of initial micromotion or failure during initial post-operative recovery.

摘要

背景

在反向全肩关节置换术中,肱盂关节旋转中心的改变使关节盂基板承受更大的剪切力,并可能导致松动。

方法

本研究在Sawbone模型中通过施加直接剪切力来检测关节盂基板的微动和初始固定强度。所检测的反向全肩关节置换系统包括DJO Reverse®肩关节假体、Exactech Equinoxe®反向系统和Tornier Aequalis反向肩关节假体。对标本进行循环测试,逐渐增加剪切负荷,直至植入物与关节盂之间产生150μm的位移,随后直至失效,失效定义为植入物/关节盂位移1cm或骨折。

结果

DJO、Tornier和Exactech达到150μm阈值时承受的平均负荷分别为460±88N、525±100N和585±160N。DJO、Tornier和Exactech装置失效时的平均总负荷分别为980±260N、1260±120N和1350±230N。

讨论

Exactech植入物设计在每个阈值下诱导微动和导致装置失效所需的负荷更高,最常见的是螺钉拔出不良。本研究提出了可能增强固定的设计特征,并表明在术后初期恢复期间初始微动或失效的风险很小。