反向肩关节置换术 2 年临床结果与静态肩胛骨术前规划软件预测的活动范围比较

Q4 Medicine

Seminars in Arthroplasty Pub Date : 2024-06-22 DOI:10.1053/j.sart.2024.05.001

Marco Branni PhD , Helen Ingoe MBBS, FRCS Eng, MD, MSc, PGCert , Asma Salhi PhD , Kristine Italia MD, FPOA , Luke Gilliland MEng , Marine Launay MEng , Roberto Pareyon MD , Jashint Maharaj MBBS , Angus Lane BEng , Peter Pivonka PhD , Kenneth Cutbush MBBS, FRACS, FAOrthoA , Ashish Gupta MBBS, MSc, FRACS, FAOrthoA

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引用次数: 0

摘要

背景术前规划在反向肩关节置换术（RSA）的管理中越来越受欢迎。市售软件可对肩胛骨和肱骨进行三维分割，提供植入关节的运动弧度，并识别潜在的骨性撞击区域。然而，这些软件算法使用固定的肩胛骨模型，忽略了患者术前的临床活动范围（C-ROM），无论是盂肱关节还是肩胛胸关节，以及任何软组织参数。本研究旨在通过使用术后计算机断层扫描（CT）图像中的植入位置，将基于术前规划软件的ROM（使用术前规划软件预测的ROM [P-ROM]）与至少2年随访时评估的C-ROM进行比较。方法分析了2017年至2021年间接受初次RSA的46例患者的术前和术后CT扫描。术后 2 年复查时，对每位患者的活动 ROM 进行评估。根据手术记录和术后 CT 扫描结果确定的植入物大小和位置被用于在规划软件中复制已实施的手术。模拟并记录外展、屈曲和外旋运动。使用线性回归分析、皮尔逊相关系数和配对 t 检验研究了 C-ROM 和 P-ROM 之间的关系。001），平均差异为外展 78°、屈曲 47°、外旋 37°（C-ROM：外展 155°±21°[80°-180°]；屈曲 160°±17°[90°-180°]；外旋 52°±14°[10°-80°] vs. P-ROM：外展 77°±13°[53°-107°]；屈曲 112°±25°[67°-180°]；外旋 15°±21°[0°-79°]）。线性回归分析表明，C-ROM 和 P-ROM 之间的一致性较弱（外展 R2 = 0.03；屈曲 R2 = 0.01；外旋 R2 = 0.04）。皮尔逊相关系数显示，外展、屈曲和外旋的弱相关系数分别为-0.18、0.03和0.21。

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Comparison of range of motion between 2-year clinical outcomes and predictions of a static scapula preoperative planning software for reverse shoulder arthroplasty

Background

Preoperative planning has gained popularity in the management of reverse shoulder arthroplasty (RSA). Commercially available software provides 3-dimensional segmentation of scapula and humerus, as well as providing arc of motion for the implanted articulation and identifying potential areas of bony impingement. However, these software algorithms use a fixed scapula model, disregarding the preoperative clinical range of motion (C-ROM) of the patient, be it glenohumeral or scapulothoracic, as well as any soft tissue parameters. This study aims to compare the ROM based on preoperative planning software by using the implant position from postoperative computed tomography (CT) images (predicted ROM using preoperative planning software [P-ROM]), with the C-ROM assessed at minimum of 2 years of follow-up.

Methods

Preoperative and postoperative CT scans of 46 patients who underwent primary RSA between 2017 and 2021 were analyzed. At the postoperative 2-year review, each patient was assessed for active ROM. Implant size and position based on operative notes and postoperative CT scans were used to replicate the performed surgery in the planning software. Abduction, flexion, and external rotation motion were simulated and recorded. The relationship between C-ROM and P-ROM was investigated using linear regression analysis, Pearson correlation coefficient, and paired t-test.

Results

P-ROM was significantly lower than C-ROM at 2 years postoperatively (P < .001), with an average discrepancy of 78° in abduction, 47° in flexion, and 37° in external rotation (C-ROM: abduction 155° ± 21° [80°-180°]; flexion 160° ± 17° [90°-180°]; external rotation 52° ± 14° [10°-80°] vs. P-ROM: abduction 77° ± 13° [53°-107°]; flexion 112° ± 25° [67°-180°]; external rotation 15° ± 21° [0°-79°]). The linear regression analysis indicated weak agreement between C-ROM and P-ROM (abduction R² = 0.03; flexion R² = 0.01; external rotation R² = 0.04). Pearson’s correlation coefficients revealed weak correlations of −0.18, 0.03, and 0.21 for abduction, flexion, and external rotation, respectively.

Conclusion

P-ROM based on preoperative software in its current form does not allow the prediction of the C-ROM at 2 years of follow-up for patients undergoing RSA.

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来源期刊

Seminars in Arthroplasty Medicine-Surgery

CiteScore

1.00

自引率

0.00%

发文量

104

期刊介绍： Each issue of Seminars in Arthroplasty provides a comprehensive, current overview of a single topic in arthroplasty. The journal addresses orthopedic surgeons, providing authoritative reviews with emphasis on new developments relevant to their practice.