双凹肩胛盂表现出 3 种不同方向的后缘侵蚀模式。
Biconcave glenoids show 3 differently oriented posterior erosion patterns.
机构信息
Department of Orthopaedic Surgery, UConn Musculoskeletal Institute, University of Connecticut, Farmington, CT, USA; Department of Orthopaedic Sports Medicine, Technical University of Munich, Munich, Germany; Department of Trauma, Orthopaedic, Plastic and Hand Surgery, University Hospital of Augsburg, Augsburg, Germany.
Department of Orthopaedic Sports Medicine, Technical University of Munich, Munich, Germany.
出版信息
J Shoulder Elbow Surg. 2021 Nov;30(11):2620-2628. doi: 10.1016/j.jse.2021.04.028. Epub 2021 May 5.
BACKGROUND
Posterior glenoid wear remains a challenge in anatomic and reverse total shoulder arthroplasty (rTSA) because of an asymmetric erosion with altered retroversion. The purpose of this study was to assess glenoid morphology and evaluate the influence of acromial orientation in posterior glenoid erosion patterns by using 3-dimensional (3D) models.
MATERIAL AND METHODS
Computed tomographic (CT) shoulder scans from 3 study centers of patients awaiting rTSA between 2017 and 2018 were converted into 3D models and analyzed by 2 observers. Morphology, orientation and greatest depth of erosion, inclination, current retroversion and premorbid retroversion, surface areas of the glenoid, and external acromial orientation and posterior acromial slope were assessed. Measurements were compared between wear patterns, glenoid erosion entities, and genders.
RESULTS
In the complete cohort of 68 patients (63.8 ± 10.0 years; 19 female, 49 male), a mean of 85.9° (±22.2°) was observed for the glenoid erosion orientation. Additionally, a further distinct classification of the glenoid erosion as posterior-central (PC, n = 39), posterior-inferior (PI, n = 12), and posterior-superior (PS, n = 17) wear patterns was possible. These wear patterns significantly (P < .001) distinguished by erosion orientation (PC = 86.9° ± 12.0°, PI = 116.3° ± 10.3°, PS = 62.3° ± 18.9°). The greatest depth of erosion found was 7.3 ± 2.7 mm in PC wear patterns (PC vs. PI: P = .03; PC vs. PS: n.s.; PI vs. PS: n.s.). Overall, the observed erosion divided the glenoid surface into a paleoglenoid proportion of 48% (±11%) and a neoglenoid proportion of 52% (±12%). For the complete cohort, glenoid inclination was 85.4° (±6.6°), premorbid glenoid retroversion was 80.7° (±8.1°), and current glenoid retroversion was 73.4° (±7.4°), with an estimated increase of 6.9° (±6.0°). The mean external acromial orientation was 118.2° (±8.9°), and the mean posterior acromial slope was 107.2° (±9.6°). There were no further significant differences if parameters were compared by wear patterns, entities, and gender.
CONCLUSION
Three significantly differently oriented wear patterns (posterior-superior, posterior-central, and posterior-inferior) were distinguished in shoulders demonstrating posterior wear on axillary imaging. No significant differences between the observed erosion patterns or any relevant correlations were found regarding the orientation of the acromion.
背景
由于后盂肱关节的不对称性侵蚀和后旋转角度改变,解剖型和反式全肩关节置换(rTSA)中仍存在后盂肱关节磨损的问题。本研究的目的是通过三维(3D)模型评估盂肱关节形态,并评估肩峰倾斜度对后盂肱关节侵蚀模式的影响。
材料与方法
收集 2017 年至 2018 年期间在三个研究中心等待行 rTSA 的患者的 CT 肩部扫描数据,并将其转换为 3D 模型,由两位观察者进行分析。评估形态、方向和最大磨损深度、倾斜度、当前后旋转角度和术前后旋转角度、盂肱关节表面面积以及肩峰外侧和后向倾斜度。比较不同磨损模式、盂肱关节磨损实体和性别之间的测量值。
结果
在 68 例患者(63.8±10.0 岁;19 名女性,49 名男性)的完整队列中,观察到盂肱关节磨损的平均方向为 85.9°(±22.2°)。此外,还可以进一步将盂肱关节磨损分为后-中央(PC)、后-下(PI)和后-上(PS)三种不同的磨损模式。这些磨损模式在方向上有显著差异(P<0.001),PC 模式为 86.9°±12.0°,PI 模式为 116.3°±10.3°,PS 模式为 62.3°±18.9°。在 PC 模式中,最大磨损深度为 7.3±2.7mm(PC 与 PI 相比:P=0.03;PC 与 PS 相比:无统计学差异;PI 与 PS 相比:无统计学差异)。总体而言,观察到的磨损将盂肱关节表面分为旧盂肱关节比例为 48%(±11%)和新盂肱关节比例为 52%(±12%)。对于完整队列,盂肱关节倾斜度为 85.4°(±6.6°),术前盂肱关节后旋转角度为 80.7°(±8.1°),当前盂肱关节后旋转角度为 73.4°(±7.4°),估计增加了 6.9°(±6.0°)。肩峰外侧的平均角度为 118.2°(±8.9°),肩峰后向倾斜度的平均角度为 107.2°(±9.6°)。如果按磨损模式、实体和性别进行比较,没有发现任何参数存在显著差异。
结论
在腋侧影像学上显示后盂肱关节磨损的肩关节中,区分出三个明显不同方向的磨损模式(后-上、后-中央和后-下)。在观察到的磨损模式或肩峰倾斜度方面没有发现任何显著差异或任何相关的相关性。
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