Computer modeling and validation testing for glenoid component rotation and optimal glenoid screw angles for reverse shoulder arthroplasty in an Asian population.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-12-01 Epub Date: 2024-09-30 DOI:10.1007/s00264-024-06340-z
Shun Sing Martin Cheng, Colin Shing-Yat Yung, Samuel De Hoi Wong, Christopher Chun Hei Yip, Issac Jun Ren Khoo, Tsoi Wan Karen Wong, Christian Fang
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Abstract

Purpose: Good initial fixation of glenoid component for reverse total shoulder arthroplasty (RTSA) relies on component placement and screw purchase in the scapula bone. This is especially difficult in an Asian population with small glenoid geometry. Optimal glenoid component roll angle and screw angulation to achieve the longest screws for best fixation has not been defined in the current literature.

Methods: Computer 3D modelling of 133 scapulas with RTSA performed were analyzed to determine patient specific optimal glenoid roll angle (GRA) for the longest bi-cortical screws attainable. The cranial-caudal angle (CCA), anterior-posterior angle (APA) and lengths for the superior and inferior screws were measured. Validation testing using calculated average (CA) angles and rounded average (RA) angles to the nearest 5 degree were recomputed for each case to determine the bi-cortical screw lengths achievable. The CA and RA screw lengths were compared against patient specific modelling using paired-sample t-tests.

Results: Average GRA was - 1.6°, almost perpendicular to the long axis of the glenoid and achieves an average bi-cortical screw length of 51.3 mm and 45.5 mm for the superior and inferior screws respectively. The CCA and APA were 9.1° cranial and 6.5° posterior for the superior screw and screw angulation of 11.2° caudal and 0.7° anterior for the inferior screw. Validation testing shows statistically shorter screw lengths in the CA and RA models compared to patient specific modelling (p < 0.01).

Conclusion: Validation testing with average angles for GRA, CCA and APA demonstrates strong patient heterogeneity and anatomical variation. Despite this, screw lengths attainable in the RA group were > 38 mm with good safety profile. Surgeons may consider the additional use of navigation-assisted, or 3D printed patient specific instrumentation to optimize baseplate and screw configuration for RTSA.

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在亚洲人群中进行反向肩关节置换术的盂部件旋转和最佳盂螺钉角度的计算机建模和验证测试。
目的:反向全肩关节置换术(RTSA)盂成形组件的良好初始固定依赖于在肩胛骨内放置组件和购买螺钉。这对于盂状结构较小的亚洲人来说尤其困难。目前的文献中还没有确定最佳的盂组件滚动角度和螺钉角度,以获得最佳固定的最长螺钉:方法:对133例实施RTSA的肩胛骨进行计算机三维建模分析,以确定患者的最佳盂臼滚动角(GRA),从而获得最长的双皮质螺钉。测量了上螺钉和下螺钉的头颅-尾椎角(CCA)、前-后角(APA)和长度。使用计算出的平均(CA)角度和最接近 5 度的圆角平均(RA)角度对每个病例进行重新计算验证测试,以确定可达到的双皮质螺钉长度。使用配对样本 t 检验将 CA 和 RA 螺钉长度与患者特定模型进行比较:平均GRA为-1.6°,几乎垂直于盂长轴,上螺钉和下螺钉的平均双皮质螺钉长度分别为51.3毫米和45.5毫米。上部螺钉的CCA和APA分别为9.1°头侧和6.5°后侧,下部螺钉的螺钉角度为11.2°尾侧和0.7°前侧。验证测试表明,与患者特定模型相比,CA 和 RA 模型的螺钉长度在统计学上更短(p 结论:CA 和 RA 模型的螺钉长度更短:使用 GRA、CCA 和 APA 的平均角度进行的验证测试表明,患者的异质性和解剖学差异很大。尽管如此,RA 组的螺钉长度仍大于 38 毫米,安全性良好。外科医生可考虑额外使用导航辅助或 3D 打印的患者专用器械,以优化 RTSA 的基板和螺钉配置。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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