Center for Musculoskeletal Surgery, Charité-Universitätsmedizin Berlin, Berlin, Germany.
Schulthess Klinik, Zurich, Switzerland.
Am J Sports Med. 2024 Apr;52(5):1299-1307. doi: 10.1177/03635465241233706. Epub 2024 Mar 15.
Constitutional static posterior humeral decentering (type C1 according to ABC Classification) has been recognized as a pre-osteoarthritic deformity that may lead to early-onset posterior decentering osteoarthritis at a young age. Therefore, it is important to identify possible associations of this pathologic shoulder condition to find more effective treatment options.
To perform a comprehensive analysis of all parameters reported to be associated with a C1 shoulder-including the osseous shoulder morphology, scapulothoracic orientation, and the muscle volume of the shoulder girdle in a single patient cohort.
Cross-sectional study; Level of evidence, 3.
A retrospective, comparative study was conducted analyzing 17 C1 shoulders in 10 patients who underwent magnetic resonance imaging (MRI) with the complete depiction of the trunk from the base of the skull to the iliac crest, including both humeri. The mean age of the patients was 33.5 years, and all patients were men. To measure and compare the osseous shoulder morphology (glenoid version, glenoid offset, humeral torsion, anterior acromial coverage, posterior acromial coverage, posterior acromial height, and posterior acromial tilt) and scapulothoracic orientation (scapular protraction, scapular internal rotation, scapular upward rotation, scapular translation, scapular tilt, and thoracic kyphosis), these patients were matched 1 to 4 according their age, sex, and affected side with shoulder-healthy patients who had received positron emission tomography (PET)-computed tomography. To measure and compare the muscle volume of the shoulder girdle (subscapularis, infraspinatus/teres minor, supraspinatus, trapezius, deltoid, latissimus dorsi/teres major, pectoralis major, and pectoralis minor), patients were matched 1 to 2 with patients who had received PET-MRI. Patients with visible pathologies of the upper extremities were excluded.
The C1 group had a significantly higher glenoid retroversion, increased anterior glenoid offset, reduced humeral retrotorsion, increased anterior acromial coverage, reduced posterior acromial coverage, increased posterior acromial height, and increased posterior acromial tilt compared with controls ( < .05). Decreased humeral retrotorsion showed significant correlation with higher glenoid retroversion ( = -0.742; < .001) and higher anterior glenoid offset ( = -0.757; < .001). Significant differences were found regarding less scapular upward rotation, less scapular tilt, and less thoracic kyphosis in the C1 group ( < .05). The muscle volume of the trapezius and deltoid was significantly higher in the C1 group ( < .05).
Patients with C1 shoulders differ from healthy controls regarding osseous scapular and humeral morphology, scapulothoracic orientation, and shoulder girdle muscle distribution. These differences may be crucial in understanding the delicate balance of glenohumeral centering.
宪法性静态肩后移位(根据 ABC 分类法为 C1 型)已被认为是一种预骨性关节炎畸形,可能导致年轻时出现早期后向中心性骨关节炎。因此,重要的是要确定这种病理性肩部状况的可能关联,以找到更有效的治疗方法。
在单个患者队列中,对所有与 C1 肩部相关的参数进行全面分析,包括骨骼肩部形态、肩胛胸廓取向和肩部带肌肉体积。
横断面研究;证据水平,3 级。
回顾性比较研究,对 10 例接受 MRI 检查的 C1 肩部患者进行分析,MRI 完整描绘了从颅底到髂嵴的躯干,包括两个肱骨。患者的平均年龄为 33.5 岁,均为男性。为了测量和比较骨骼肩部形态(关节盂倾斜度、关节盂前凸、肱骨扭转、肩峰前覆盖、肩峰后覆盖、肩峰后高度和肩峰后倾斜)和肩胛胸廓取向(肩胛前突、肩胛内旋、肩胛上旋、肩胛平移、肩胛倾斜和胸椎后凸),根据年龄、性别和患侧,将这些患者与接受正电子发射断层扫描(PET)-计算机断层扫描的肩部健康患者进行 1 对 4 匹配。为了测量和比较肩部带肌肉体积(肩胛下肌、肩胛下肌/小菱形肌、冈上肌、斜方肌、三角肌、背阔肌/大菱形肌、胸大肌和胸小肌),根据接受 PET-MRI 的患者,将患者进行 1 对 2 匹配。排除上肢可见病变的患者。
C1 组的关节盂后倾、前关节盂前凸、肱骨后扭转、肩峰前覆盖增加、肩峰后覆盖减少、肩峰后高度和肩峰后倾斜增加均明显高于对照组( <.05)。肱骨后扭转减少与关节盂后倾( = -0.742; <.001)和前关节盂前凸( = -0.757; <.001)显著相关。C1 组的肩胛上旋、肩胛倾斜和胸椎后凸明显减少( <.05)。C1 组的斜方肌和三角肌肌肉体积明显增加( <.05)。
C1 肩部患者的骨骼肩和肱骨形态、肩胛胸廓取向以及肩部带肌肉分布与健康对照组存在差异。这些差异对于理解盂肱关节中心的微妙平衡可能至关重要。
