与基于对照CT的3D打印肩胛骨相比,全肩关节置换术规划软件的变异性。
Variability in total shoulder arthroplasty planning software compared to a control CT-derived 3D printed scapula.
作者信息
Shah Sarav S, Sahota Shawn, Denard Patrick J, Provencher Matthew T, Parsons Bradford O, Hartzler Robert U, Dines Joshua S
机构信息
New England Baptist Hospital, Boston, MA, USA.
Hospital for Special Surgery, New York, NY, USA.
出版信息
Shoulder Elbow. 2021 Jun;13(3):268-275. doi: 10.1177/1758573219888821. Epub 2019 Dec 2.
BACKGROUND
Two techniques exist from which all 3D preoperative planning software for total shoulder arthroplasty are based. One technique is based on measurements constructed on the mid-glenoid and scapular landmarks (Landmark). The second is an automated system using a best-fit sphere technique (Automated). The purpose was to compare glenoid measurements from the two techniques against a control computed tomography-derived 3D printed scapula.
METHODS
Computed tomography scans of osteoarthritic shoulders of 20 patients undergoing primary total shoulder arthroplasty were analyzed with both 3D planning software techniques. Measurements from a 3D printed scapula (Scapula) from the true 3D computed tomography scan served as controls. Glenoid version and inclination measurements from each group were blinded and reviewed.
RESULTS
In 65% (Automated) and 45% (Landmark) of cases, either inclination or version varied by 5° or more versus 3D printed scapula. Significant variability in version differences compared to the scapula group existed (p = 0.007). Glenoid version from the Scapula = 13.0° ± 10.6°, Automated = 15.0° ± 13.9°, and Landmark = 12.2° ± 7.8°. Inclination from Scapula = 5.4° ± 7.9°, Automated = 6.1° ± 12.6°, and Landmark = 6.2° ± 9.1°.
DISCUSSION
A high percentage of cases showed discrepancies in glenoid inclination and version values from both techniques. Surgeons should be aware that regardless of software technique, there is variability compared to measurements from a control 3D computed tomography printed scapula.
背景
所有用于全肩关节置换术的三维术前规划软件均基于两种技术。一种技术基于在肩胛盂中部和肩胛骨标志点上构建的测量值(标志点法)。另一种是使用最佳拟合球体技术的自动化系统(自动化法)。目的是将这两种技术测得的肩胛盂测量值与通过计算机断层扫描获得的三维打印肩胛骨对照进行比较。
方法
使用两种三维规划软件技术分析了20例行初次全肩关节置换术的骨关节炎患者肩部的计算机断层扫描图像。来自真实三维计算机断层扫描的三维打印肩胛骨(肩胛骨)的测量值用作对照。对每组的肩胛盂版本和倾斜度测量值进行盲法审查。
结果
在65%(自动化法)和45%(标志点法)的病例中,与三维打印肩胛骨相比,倾斜度或版本的差异达5°或更大。与肩胛骨组相比,版本差异存在显著变异性(p = 0.007)。肩胛骨组的肩胛盂版本为13.0°±10.6°,自动化法为15.0°±13.9°,标志点法为12.2°±7.8°。肩胛骨组的倾斜度为5.4°±7.9°,自动化法为6.1°±12.6°,标志点法为6.2°±9.1°。
讨论
很高比例的病例显示两种技术测得的肩胛盂倾斜度和版本值存在差异。外科医生应意识到,无论使用何种软件技术,与通过三维计算机断层扫描打印的对照肩胛骨测量值相比,都存在变异性。
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