The over-the-top subscapularis repair in reverse shoulder arthroplasty: biomechanical evaluation of a novel technique

King, Joseph J.; Greene, Alexander T.; Hamilton, Matthew A.; Diep, Phong; Gil, Jorge; Wright, Thomas W.; Schoch, Bradley S.

doi:10.1016/j.jses.2019.09.005

Cited by 9 publications

(8 citation statements)

References 25 publications

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“…Patients who underwent surgery with a 135° neck-shaft angle prosthesis (Arthrex Universe Reverse) showed better external rotation measured in reachable points in CS 1 year after surgery [10 (6-10) vs. 10 (0-10); p = 0.012, Table 4], compared to those that received a 155° neck-shaft angle prosthesis (DePuy Delta XTend) independent of SSC repair. Patients with a 155° neck-shaft angle prosthesis had a better postoperative force measured in 90° abduction in points of CS [7 (3-25) vs. 4 (2)(3)(4)(5)(6)(7)(8)(9)(10)(11)(12)(13)(14)(15)(16)(17)(18); p = 0.044, Table 4], compared to patients receiving a 135° neck-shaft angle prosthesis independent of SSC repair.…”

Section: Comparison Of Functional Outcomes From Different Prostheses Independent From Ssc Managementmentioning

confidence: 99%

“…Other trials decline the refixation due to postoperative limitation of ROM, especially external rotation, and as no differences in postoperative outcomes after SSC-tendon repair were shown [11][12][13][14]. Other authors tried to address open issues by varying prostheses designs (e.g., medialization/lateralization of prostheses components and variation of the humeral neck-shaft angle) [12,15,16] and different suture techniques of the SSC-tendon [17,18].…”

Section: Introductionmentioning

confidence: 99%

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Results after primary reverse shoulder arthroplasty with and without subscapularis repair: a prospective-randomized trial

Engel

Holschen²,

Schorn

et al. 2021

Arch Orthop Trauma Surg

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Introduction Indications for reverse shoulder arthroplasties (rTSA) have increased since their development by Paul Grammont in 1985. Prosthesis design was enhanced over time, but the management of the tendon of the M. subscapularis (SSC-tendon) in primary rTSA is still a controversial subject with regard to perform a refixation or not. Methods 50 patients were randomized in a refixation group (A) and a non-refixation-group (B) of the SSC-tendon in a double-blinded fashion. SSC-function was assessed at baseline before surgery, such as 3 and 12 months after surgery. Constant–Murley-Shoulder Score (CS), American Shoulder and Elbow Surgeons Score (ASES), strength, range of motion (ROM), and pain on numeric rating scale (NRS) were measured in all examinations. An ultrasound examination of the shoulder was performed for evaluation of subscapularis tendon integrity at 3 and 12 month follow-up visits. Pain was evaluated on NRS via phone 5 days after surgery. Surgery was performed by a single experienced senior surgeon in all patients. Results Patients with a refixation of the SSC-tendon and primary rTSA had improved internal rotation [40° (20°–60°) vs. 32° (20°–45°); p = 0.03] at 12 months of follow-up. Additionally, the A-group had increased CS [74 (13–90) vs. 69.5 (40–79); p = 0.029] 1 year after surgery. Results were strengthened by subgroup analysis of successful refixation in ultrasound examination vs. no refixation. No differences were seen in ASES and NRS 1 year after rTSA. Conclusion SSC-tendon repair in rTSA improves CS and internal rotation 12 months after surgery.

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Section: Comparison Of Functional Outcomes From Different Prostheses Independent From Ssc Managementmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Results after primary reverse shoulder arthroplasty with and without subscapularis repair: a prospective-randomized trial

Engel

Holschen²,

Schorn

et al. 2021

Arch Orthop Trauma Surg

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“…Computational modeling of RTSA facilitates estimation of muscle and joint loading, which is currently impossible to measure non-invasively in vivo. Modeling and simulation of RTSA has played a critical role in guiding implant positioning and surgical technique [19][20][21][22], prosthesis selection [23,24], implant design [25,26], and post-operative rehabilitation prescription [27,28]. To date, most modeling and simulation tools require high levels of expertise and are generally restricted to the research setting.…”

Section: Computational Modeling Techniquesmentioning

confidence: 99%

“…For example, shoulder muscle forces during upper limb elevation can be calculated in several minutes using a subject-specific rigid body model (Figure 1A) [28,31]; however, since deformation mechanics is neglected, the internal stresses and strains in the bone and implant cannot be accurately evaluated using this method. An important utility of rigid body models has been in their capacity to estimate the influence of arthroplasty on muscle moment arms, muscle and joint forces, and range of motion (ROM) at the shoulder, which are primary indicators of implant functional performance [21,23,24,[29][30][31][32][33][34][35][36][37][38][39][40].…”

Section: Computational Modeling Techniquesmentioning

confidence: 99%

“…While computational modeling may provide a basis for estimates of muscle and joint function, even the most sophisticated anatomical models are limited by the degree to which they replicate bone and joint biomechanics in vivo. Virtually all rigid body models neglect glenohumeral joint translation, and represent the glenohumeral joint as a threedegree-of-freedom constrained ball and socket or spherical joint [21,24,30,[32][33][34][35][36][37][38]40,93]. This simplification limits the degree to which such a model can predict joint stability, since joint subluxation cannot be explicitly simulated.…”

Section: Limitations Of Reverse Total Shoulder Arthroplasty Computational Modelingmentioning

confidence: 99%

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Complications of Reverse Total Shoulder Arthroplasty: A Computational Modelling Perspective

Huang

Ernstbrunner

Robinson

et al. 2021

JCM

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Reverse total shoulder arthroplasty (RTSA) is an established treatment for elderly patients with irreparable rotator cuff tears, complex proximal humerus fractures, and revision arthroplasty; however, with the increasing indications for RTSA over the last decade and younger implant recipients, post-operative complications have become more frequent, which has driven advances in computational modeling and simulation of reverse shoulder biomechanics. The objective of this study was to provide a review of previously published studies that employed computational modeling to investigate complications associated with RTSA. Models and applications were reviewed and categorized into four possible complications that included scapular notching, component loosening, glenohumeral joint instability, and acromial and scapular spine fracture, all of which remain a common cause of significant functional impairment and revision surgery. The computational shoulder modeling studies reviewed were primarily used to investigate the effects of implant design, intraoperative component placement, and surgical technique on postoperative shoulder biomechanics after RTSA, with the findings ultimately used to elucidate and mitigate complications. The most significant challenge associated with the development of computational models is in the encapsulation of patient-specific anatomy and surgical planning. The findings of this review provide a basis for future direction in computational modeling of the reverse shoulder.

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Retrospective analysis of the subscapularis-sparing approach for reverse total shoulder arthroplasty

Pastor,

Kruckenberg,

Ellwein

et al. 2024

Eur J Orthop Surg Traumatol

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The over-the-top subscapularis repair in reverse shoulder arthroplasty: biomechanical evaluation of a novel technique

Cited by 9 publications

References 25 publications

Results after primary reverse shoulder arthroplasty with and without subscapularis repair: a prospective-randomized trial

Results after primary reverse shoulder arthroplasty with and without subscapularis repair: a prospective-randomized trial

Complications of Reverse Total Shoulder Arthroplasty: A Computational Modelling Perspective

Retrospective analysis of the subscapularis-sparing approach for reverse total shoulder arthroplasty

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