Comparison of 3D computer-assisted planning with and without patient-specific instrumentation for severe bone defects in reverse total shoulder arthroplasty.

IF 2.9 2区医学 Q1 ORTHOPEDICS Journal of Shoulder and Elbow Surgery Pub Date : 2024-12-01 Epub Date: 2024-05-28 DOI:10.1016/j.jse.2024.04.002

Mitchell J Yelton, Adrik Z Da Silva, Michael A Moverman, Christopher D Joyce, Peter N Chalmers, Robert Z Tashjian

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引用次数: 0

Abstract

Background: Preoperative planning is an integral aspect of managing complex deformity in reverse shoulder arthroplasty (RSA). The purpose of this study was to compare the success of patient-specific instrumentation (PSI) and 3D computer-assisted planning with standard instrumentation (non-PSI) in achieving planned corrections of the glenoid among patients undergoing RSA with severe bony deformity requiring glenoid bone grafts.

Methods: A retrospective case-control study was performed, including all patients that underwent RSA with combined bone grafting procedures (BIO-RSA or structural bone grafting) for severe glenoid deformity by a single study between June 2016 and July 2023. Patients were required to have preoperative and postoperative CT scans as well as preoperative 3D planning performed for inclusion. Patients were divided into two groups based on the use of 3D computer-assisted planning with or without PSI (PSI vs. non-PSI). The corrected inclination and version were measured by two separate reviewers on preoperative and postoperative 2D CT scans and compared to their corresponding preoperative planning goals utilizing bivariate analyses.

Results: We identified 45 patients that met our inclusion criteria (22 PSI and 23 non-PSI). Preoperative inclination (mean ± SD) (PSI 10.12° ± 15.86°, non-PSI 9.43° ± 10.64°; P = .864) and version (PSI -18.78° ± 18.3°, non-PSI -17.82° ± 11.49°; P = .835) measurements were similar between groups. No significant differences in the mean deviation (error) between the postoperative and planned inclination (PSI 5.49° ± 3.72; non-PSI 6.91° ± 5.05; P = .437) and version (PSI 8.37° ± 5.7; non-PSI 5.37° ± 4.43; P = .054) were found between groups. No difference in the rate of outliers (>10° error) was noted in inclination (P = .135) or version (P = .445) between groups. Greater planned version correction was correlated with greater error when PSI was utilized (PSI r = 0.519, P = .013; non-PSI r = 0.362, P = .089).

Conclusion: Both PSI and 3D computer-assisted planning without PSI (non-PSI) appear to be useful techniques to achieve version and inclination correction among patients undergoing RSA with severe glenoid deformity required glenoid bone grafting with no clear superiority of one method over the other. Surgeons should be aware that when utilizing PSI, slightly greater error in achieving version goals may occur as version correction is increased.

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针对反向全肩关节置换术中的严重骨质缺损，使用和不使用患者专用器械进行三维计算机辅助规划的比较。

背景：术前规划是反向肩关节置换术（RSA）中处理复杂畸形不可或缺的一个方面。本研究的目的是比较患者专用器械（PSI）和三维计算机辅助规划与标准器械（非PSI）在实现需要盂骨移植的严重骨性畸形反向肩关节置换术患者盂骨计划矫正方面的成功率：研究对象为2016年6月至2023年7月期间接受RSA联合植骨术（BIO-RSA或结构性植骨术）治疗严重盂骨畸形的所有患者。患者需进行术前和术后 CT 扫描以及术前 3D 规划，方可纳入研究。根据是否使用 PSI（PSI 与非 PSI）进行三维计算机辅助规划，患者被分为两组。术前和术后二维 CT 扫描的校正倾斜度和版本由两名不同的审查员进行测量，并通过双变量分析将其与相应的术前规划目标进行比较：我们确定了 45 例符合纳入标准的患者（22 例 PSI 和 23 例非 PSI）。两组患者术前的倾斜度（平均 ± SD）（PSI 10.12° ± 15.86°，非 PSI 9.43° ± 10.64°；P = 0.864）和角度（PSI -18.78° ± 18.3°，非 PSI -17.82° ± 11.49°；P = 0.835）测量结果相似。术后与计划倾斜度（PSI 5.49° ± 3.72；非 PSI 6.91° ± 5.05；P = 0.437）和版本（PSI 8.37° ± 5.7；非 PSI 5.37° ± 4.43；P = 0.054）之间的平均偏差（误差）在组间无明显差异。各组间的倾斜度（P = 0.135）和版本（P = 0.445）异常值（>10°误差）率无差异。当使用 PSI 时，更多的计划版本校正与更大的误差相关（PSI r = 0.519，P = 0.013；非 PSI r = 0.362，P = 0.089）：结论：PSI和无PSI的三维计算机辅助规划（非PSI）似乎都是在接受RSA手术且髋臼严重畸形、需要进行髋臼植骨的患者中实现畸形和倾斜矫正的有用技术，但没有明显的优劣之分。外科医生应该注意的是，在使用 PSI 时，随着畸形矫正程度的增加，在实现畸形目标方面可能会出现稍大的误差。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Shoulder and Elbow Surgery 医学-外科

CiteScore

6.50

自引率

23.30%

发文量

604

审稿时长

11.2 weeks

期刊介绍： The official publication for eight leading specialty organizations, this authoritative journal is the only publication to focus exclusively on medical, surgical, and physical techniques for treating injury/disease of the upper extremity, including the shoulder girdle, arm, and elbow. Clinically oriented and peer-reviewed, the Journal provides an international forum for the exchange of information on new techniques, instruments, and materials. Journal of Shoulder and Elbow Surgery features vivid photos, professional illustrations, and explicit diagrams that demonstrate surgical approaches and depict implant devices. Topics covered include fractures, dislocations, diseases and injuries of the rotator cuff, imaging techniques, arthritis, arthroscopy, arthroplasty, and rehabilitation.