Implant-Positioning and Patient Factors Associated with Acromial and Scapular Spine Fractures After Reverse Shoulder Arthroplasty

1区医学 Q1 Medicine Journal of Bone and Joint Surgery Pub Date : 2024-06-05 DOI:10.2106/jbjs.23.01203

Michael A. Moverman, Richard N. Puzzitiello, Evan A. Glass, Daniel P. Swanson, Kristian Efremov, Ryan Lohre, Adam R. Bowler, Kuhan A. Mahendraraj, Kiet Le, Warren R. Dunn, Dylan J. Cannon, Lisa G. M. Friedman, Jaina A. Gaudette, John Green, Lauren Grobaty, Michael J. Gutman, Jaquelyn Kakalecik, Michael A. Kloby, Elliot N. Konrade, Margaret C. Knack, A. Loveland, Joshua I. Mathew, Luke A. Myhre, Jacob Nyfeler, Doug E. Parsell, Marissa Pazik, Teja S. Polisetty, P. Ponnuru, Karch M. Smith, Katherine A. Sprengel, Ocean Thakar, Lacie M. Turnbull, Alayna Vaughan, J. Wheelwright, Joseph A. Abboud, April D Armstrong, Luke S. Austin, Tyler J. Brolin, V. Entezari, Grant E. Garrigues, Brian M. Grawe, L. Gulotta, Rhett Hobgood, J. Gabe Horneff, Jason E. Hsu, J. Iannotti, Michael Khazzam, Joseph J. King, Jacob M. Kirsch, Jonathan C. Levy, A. Murthi, S. Namdari, Gregory P. Nicholson, Randall J. Otto, E. Ricchetti, R. Tashjian, T. Throckmorton, Thomas W. Wright, Andrew Jawa

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Abstract

This study aimed to identify implant positioning parameters and patient factors contributing to acromial stress fractures (ASFs) and scapular spine stress fractures (SSFs) following reverse shoulder arthroplasty (RSA). In a multicenter retrospective study, the cases of patients who underwent RSA from June 2013 to May 2019 and had a minimum 3-month follow-up were reviewed. The study involved 24 surgeons, from 15 U.S. institutions, who were members of the American Shoulder and Elbow Surgeons (ASES). Study parameters were defined through the Delphi method, requiring 75% agreement among surgeons for consensus. Multivariable logistic regression identified factors linked to ASFs and SSFs. Radiographic data, including the lateralization shoulder angle (LSA), distalization shoulder angle (DSA), and lateral humeral offset (LHO), were collected in a 2:1 control-to-fracture ratio and analyzed to evaluate their association with ASFs/SSFs. Among 6,320 patients, the overall stress fracture rate was 3.8% (180 ASFs [2.8%] and 59 SSFs [0.9%]). ASF risk factors included inflammatory arthritis (odds ratio [OR] = 2.29, p < 0.001), a massive rotator cuff tear (OR = 2.05, p = 0.010), osteoporosis (OR = 2.00, p < 0.001), prior shoulder surgery (OR = 1.82, p < 0.001), cuff tear arthropathy (OR = 1.76, p = 0.002), female sex (OR = 1.74, p = 0.003), older age (OR = 1.02, p = 0.018), and greater total glenoid lateral offset (OR = 1.06, p = 0.025). Revision surgery (versus primary surgery) was associated with a reduced ASF risk (OR = 0.38, p = 0.019). SSF risk factors included female sex (OR = 2.45, p = 0.009), rotator cuff disease (OR = 2.36, p = 0.003), osteoporosis (OR = 2.18, p = 0.009), and inflammatory arthritis (OR = 2.04, p = 0.024). Radiographic analysis of propensity score-matched patients showed that a greater increase in the LSA (ΔLSA) from preoperatively to postoperatively (OR = 1.42, p = 0.005) and a greater postoperative LSA (OR = 1.76, p = 0.009) increased stress fracture risk, while increased LHO (OR = 0.74, p = 0.031) reduced it. Distalization (ΔDSA and postoperative DSA) showed no significant association with stress fracture prevalence. Patient factors associated with poor bone density and rotator cuff deficiency appear to be the strongest predictors of ASFs and SSFs after RSA. Final implant positioning, to a lesser degree, may also affect ASF and SSF prevalence in at-risk patients, as increased humeral lateralization was found to be associated with lower fracture rates whereas excessive glenoid-sided and global lateralization were associated with higher fracture rates. Prognostic Level III. See Instructions for Authors for a complete description of levels of evidence.

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反向肩关节置换术后与肩峰和肩胛骨脊柱骨折相关的植入物位置和患者因素

本研究旨在确定反向肩关节置换术（RSA）后导致肩峰应力性骨折（ASF）和肩胛棘应力性骨折（SSF）的植入物定位参数和患者因素。在一项多中心回顾性研究中，研究人员回顾了2013年6月至2019年5月期间接受RSA手术并至少随访3个月的患者病例。这项研究有来自美国15家机构的24名外科医生参与，他们都是美国肩肘外科医生协会（ASES）的成员。研究参数通过德尔菲法确定，要求外科医生之间达成75%的共识。多变量逻辑回归确定了与ASF和SSF相关的因素。研究人员以 2:1 的对照组与骨折组比例收集了包括肩外侧角 (LSA)、肩远端角 (DSA) 和肱骨外侧偏移 (LHO) 在内的放射学数据，并对其进行了分析，以评估它们与 ASFs/SSFs 的关联。在6320名患者中，应力性骨折的总发生率为3.8%（180例ASF[2.8%]和59例SSF[0.9%]）。应力性骨折的风险因素包括炎症性关节炎（几率比 [OR] = 2.29，P < 0.001）、肩袖大面积撕裂（OR = 2.05，P = 0.010）、骨质疏松症（OR = 2.00，P < 0.001）、既往肩部手术（OR = 1.82, p < 0.001）、袖带撕裂关节病（OR = 1.76, p = 0.002）、女性（OR = 1.74, p = 0.003）、年龄较大（OR = 1.02, p = 0.018）、总盂外侧偏移较大（OR = 1.06, p = 0.025）。翻修手术（与初次手术相比）与ASF风险降低有关（OR = 0.38，p = 0.019）。SSF风险因素包括女性（OR = 2.45，p = 0.009）、肩袖疾病（OR = 2.36，p = 0.003）、骨质疏松症（OR = 2.18，p = 0.009）和炎性关节炎（OR = 2.04，p = 0.024）。对倾向评分匹配患者进行的放射学分析表明，LSA（ΔLSA）从术前到术后的增加幅度越大（OR = 1.42，p = 0.005），术后LSA越大（OR = 1.76，p = 0.009），应力性骨折风险越高，而LHO增加（OR = 0.74，p = 0.031），应力性骨折风险越低。远端化（ΔDSA和术后DSA）与应力性骨折发生率无明显关系。与骨密度差和肩袖缺损相关的患者因素似乎是RSA术后ASF和SSF的最大预测因素。最终的植入物定位也可能在较小程度上影响高危患者的ASF和SSF发生率，因为肱骨侧移增加与较低的骨折发生率相关，而过度的盂侧和整体侧移与较高的骨折发生率相关。预后三级。有关证据等级的完整描述，请参阅 "作者须知"。

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Journal of Bone and Joint Surgery

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