术前规划软件无法准确预测反式全肩关节置换术的活动范围。
Preoperative Planning Software Does Not Accurately Predict Range of Motion in Reverse Total Shoulder Arthroplasty.
机构信息
From the Department of Orthopaedic Surgery, University of Utah, Salt Lake City, UT.
出版信息
J Am Acad Orthop Surg. 2024 Apr 15;32(8):e378-e386. doi: 10.5435/JAAOS-D-23-00519. Epub 2023 Oct 5.
BACKGROUND
The purpose of this study was to determine whether preoperative planning software (PPS) accurately predicts clinical range of motion (ROM) in patients with reverse total shoulder arthroplasty 1 year postoperatively with preoperative and postoperative computed tomography (CT) scans.
METHODS
This was a retrospective study of 16 reverse total shoulder arthroplasty patients with preoperative and postoperative (CT) scans obtained at least 1 year postoperatively. Clinical ROM was measured in abduction, external rotation at resting abduction, extension, and flexion at a minimum of 1 year postoperatively. All clinical measurements were obtained before generation of PPS ROM values. Using postoperative CT scans, the achieved implant component positions were quantified and then replicated in PPS on the preoperative CT scans. The preoperative predicted ROM was then recorded, both with and without osteophyte removal. Bland-Altman plots were generated within each motion comparing the differences between clinically measured motion and software-predicted motion.
RESULTS
The variation in clinically measured ROM in abduction, external rotation at resting abduction, extension, and flexion were 118 ± 27 (65° to 180°), 33 ± 16 (10° to 75°), 56 ± 8 (50° to 65°), and 137 ± 25 (80° to 160°), respectively. Clinically measured motion differed greatly from PPS-predicted ROM, with mean differences of 33 ± 29 (-32 to 93) for abduction, 44 ± 25 (-38 to 57) for external rotation, 44 ± 25 (-35 to 65) for extension, and 54 ± 50 (-51 to 147) for flexion with no significant correlations between clinically measured and PPS-predicted ROM ( P > 0.05). With humeral or humeral and glenoid osteophyte resection, correlations for only flexion became significant ( P = 0.002 for both).
CONCLUSION
The passive glenohumeral impingement-free ROM generated from PPS incompletely predicts clinically measured active humerothoracic ROM, possibly because of the unmeasured factors of soft-tissue tension, muscular strength, humeral torsion, resting scapular posture, and, most importantly, scapulothoracic motion.
LEVEL OF EVIDENCE
IV.
背景
本研究旨在通过术前和术后计算机断层扫描(CT)检查,确定术前规划软件(PPS)是否能准确预测行反向全肩关节置换术 1 年后患者的临床活动范围(ROM)。
方法
这是一项回顾性研究,纳入了 16 例接受反向全肩关节置换术的患者,均获得至少 1 年的术后 CT 扫描。术后 1 年以上,通过对肩关节外展、外展中立位外旋、后伸和前屈进行临床测量来评估 ROM。所有临床测量均在生成 PPS ROM 值之前进行。使用术后 CT 扫描来量化已获得的植入物组件位置,然后在术前 CT 扫描上复制。然后记录术前预测 ROM,包括是否切除骨赘。在每个运动中生成 Bland-Altman 图,比较临床测量运动与软件预测运动之间的差异。
结果
肩关节外展、外展中立位外旋、后伸和前屈的临床测量 ROM 变化分别为 118±27(65°至 180°)、33±16(10°至 75°)、56±8(50°至 65°)和 137±25(80°至 160°)。临床测量运动与 PPS 预测 ROM 有很大差异,外展的平均差值为 33±29(-32 至 93),外旋为 44±25(-38 至 57),后伸为 44±25(-35 至 65),前屈为 54±50(-51 至 147),但临床测量与 PPS 预测 ROM 之间无显著相关性(P>0.05)。在肱骨或肱骨和肩胛盂骨赘切除后,仅与前屈相关的相关性具有统计学意义(两者均为 P=0.002)。
结论
从 PPS 生成的被动盂肱关节无撞击活动范围不能完全预测临床测量的主动肩胸活动范围,这可能是由于软组织张力、肌肉力量、肱骨扭转、肩胛静止姿势以及最重要的肩胛胸运动等未测量因素所致。
证据水平
IV。
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