外侧化反肩置换术保留了剩余肩袖的旋转功能。
Lateralized reverse shoulder arthroplasty maintains rotational function of the remaining rotator cuff.
机构信息
Center for Musculoskeletal Surgery, Charité-University Medicine Berlin, Charitéplatz 1, D-10117 Berlin, Germany.
出版信息
Clin Orthop Relat Res. 2013 Mar;471(3):940-6. doi: 10.1007/s11999-012-2692-x. Epub 2012 Dec 1.
BACKGROUND
Humeral rotation often remains compromised after nonlateralized reverse shoulder arthroplasty (RSA). Reduced rotational moment arms and muscle slackening have been identified as possible reasons for this impairment. Although several clinical studies suggest lateralized RSA may increase rotation, it is unclear whether this is attributable to preservation of rotational moment arms and muscle pretension of the remaining rotator cuff.
QUESTIONS/PURPOSES: The lateralized RSA was analyzed to determine whether (1) the rotational moment arms and (2) the origin-to-insertion distances of the teres minor and subscapularis can be preserved, and (3) their flexion and abduction moment arms are decreased.
METHODS
Lateralized RSA using an 8-mm resin block under the glenosphere was performed on seven cadaveric shoulder specimens. Preimplantation and postimplantation CT scans were obtained to create three-dimensional shoulder surface models. Using these models, function-specific moment arms and origin-to-insertion distances of three segments of the subscapularis and teres minor muscles were calculated.
RESULTS
The rotational moment arms remained unchanged for the middle and caudal subscapularis and teres minor segments in all tested positions (subscapularis, -16.1 mm versus -15.8 mm; teres minor, 15.9 mm versus 15.3 mm). The origin-to-insertion distances increased or remained unchanged in any muscle segment apart from the distal subscapularis segment at 0° abduction (139 mm versus 145 mm). The subscapularis and teres minor had increased flexion moment arms in abduction angles smaller than 60° (subscapularis, 2.7 mm versus 8.3 mm; teres minor, -6.6 mm versus 0.8 mm). Abduction moment arms decreased for all segments (subscapularis, 4 mm versus -11 mm; teres minor, -3.6 mm versus -19 mm).
CONCLUSIONS
After lateralized RSA, the subscapularis and teres minor maintained their length and rotational moment arms, their flexion forces were increased, and abduction capability decreased.
CLINICAL RELEVANCE
Our findings could explain clinically improved rotation in lateralized RSA in comparison to nonlateralized RSA.
背景
非侧方型反肩置换术后,肱骨旋转通常仍受限。已确定旋转力臂减小和肌肉松弛是导致这种功能障碍的可能原因。尽管多项临床研究表明侧方型反肩置换术可增加旋转,但尚不清楚这是否归因于保留旋转力臂和剩余肩袖的肌肉预张力。
问题/目的:对侧方型反肩置换术进行分析,以确定(1)旋转力臂和(2)小圆肌和肩胛下肌的起点至止点距离是否可以保留,以及(3)其屈曲和外展力臂是否减小。
方法
在七个尸体肩关节标本上使用肱骨头下的 8-mm 树脂块进行侧方型反肩置换术。在术前和术后进行 CT 扫描以创建三维肩部表面模型。使用这些模型,计算肩胛下肌和小圆肌三个节段的功能特定力臂和起点至止点距离。
结果
在所有测试位置,中间和尾侧肩胛下肌和小圆肌段的旋转力臂保持不变(肩胛下肌,-16.1mm 对-15.8mm;小圆肌,15.9mm 对 15.3mm)。除 0°外展时的远端肩胛下肌段外,任何肌肉节段的起点至止点距离都增加或保持不变(139mm 对 145mm)。在小于 60°的外展角度下,肩胛下肌和小圆肌的屈曲力臂增加(肩胛下肌,2.7mm 对 8.3mm;小圆肌,-6.6mm 对 0.8mm)。所有节段的外展力臂均减小(肩胛下肌,4mm 对-11mm;小圆肌,-3.6mm 对-19mm)。
结论
侧方型反肩置换术后,肩胛下肌和小圆肌保持长度和旋转力臂,其屈曲力增加,外展能力下降。
临床相关性
我们的发现可以解释临床上侧方型反肩置换术与非侧方型反肩置换术相比,旋转功能得到改善的原因。
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