Nonanatomic and Suture-Based Coracoclavicular Joint Stabilization Techniques Provide Adequate Stability at a Lower Cost of Implants in Biomechanical Studies When Compared With Anatomic Techniques: A Systematic Review and Meta-Analysis

Is there a role for acromioclavicular (AC) joint capsular repair and reconstruction in high-grade AC separations? A systematic review

Purpose

To evaluate the clinical and biomechanical evidence for the addition of acromioclavicular (AC) ligament repair and reconstruction in the surgical management of high-grade AC joint (ACJ) dislocation.

Methods

This is a systematic review of biomechanical and clinical studies that describe AC reconstructive or reparative techniques. The search ranged from 1946 to 2024 and included OVID, MEDLINE, PubMed, CINAHL, Embase, Google Scholar and the Cochrane Library databases. Clinical and biomechanical outcomes were evaluated.

Results

Thirty-two eligible studies were identified. Of these, four biomechanical studies focused on the ACJ exclusively. Twenty-eight other studies (15 clinical and 13 biomechanical) were identified involving reconstruction of the ACJ in addition to the treatment of the coracoclavicular (CC) ligaments. There was clinical evidence of improved outcomes with ACJ repair and reconstruction, although comparison was difficult. In comparative studies, ACJ-specific Taft and acromioclavicular joint instability scores were improved in patients with ACJ reconstruction. Constant score and subjective shoulder value also increased, although this was observed in studies lacking a control group. The biomechanical studies provide evidence of increased translational and rotational stability with ACJ repair and reconstruction, but the optimal technique has not been identified.

Conclusion

ACJ repair and reconstruction, in addition to CC repair, results in improved biomechanical and functional outcomes and should be considered when treating high-grade ACJ injuries. There is insufficient evidence in the literature to be able to recommend a specific technique to treat ACJ injuries.

The Collaborative Orthopaedic Research Network (CORNET) Study Group. A prospective multi-centre observational cohort study to evaluate frequency, management and outcomes of acute severe (grade III-VI) acromioclavicular joint injuries in the United Kingdom

To collect data on current management and outcome of acute severe acromioclavicular joint (ACJ) injuries to inform the knowledge base, design and conduct of future research and explore the patient and injury features predicting surgical management. A prospective cohort study was conducted by two trainee collaboratives of acute Grade III to VI ACJ injuries presenting to 12 hospital trusts. 54 Patients were recruited within four weeks of injury regardless of treatment type over a one-year period. Patient reported outcomes and healthcare resource use were collected at six and 12 months post injury. Accounting for Rockwood grade, age, gender and dominant arm injury, the operative group had a statistically lower Oxford Shoulder Score (OSS) at baseline (10.8 vs 25.3, <0.0001) and at six months (37 vs 43.8, p = 0.024) than the non-operative group. There was no statistical difference at 12 months (40 vs 44, p = 0.205). The odds of operative management were inversely correlated with baseline OSS (OR 0.89, p = 0.014). There was no clear preferential method of fixation in the ten patients that received surgery. Future research needs to take into consideration the transitory population of working age, on response to follow up. A future randomised clinical trial (RCT) should be multicentred, pragmatic and stratified for baseline function and injury grade at randomisation.

Biomechanical Efficacy of Tape Cerclage as an Augment or Stand-alone for Coracoclavicular Ligament Reconstruction

BACKGROUND

Loss of initial reduction of the acromioclavicular joint after coracoclavicular (CC) ligament reconstruction remains a challenge for various repair techniques. Previous studies using polydioxanone suture cerclage augments for CC ligament reconstruction demonstrated poor clinical and biomechanical outcomes. Tape-style sutures have recently gained popularity because of their added stiffness and strength relative to traditional sutures. These tape cerclage systems have yet to be biomechanically studied in CC ligament reconstruction.

PURPOSE

To determine the efficacy of a tape cerclage system as an augment to CC ligament reconstruction.

STUDY DESIGN

Controlled laboratory study.

METHODS

A total of 24 human cadaveric shoulders were utilized. These were divided into 4 repair groups: anatomic CC ligament reconstruction (ACCR), ACCR with a tape cerclage augment (ACCR + C), tendon graft sling with a cerclage augment (TGS + C), or tape cerclage sling alone (CS). The repairs underwent superior/inferior cyclic loading to evaluate for displacement. Specimens were visually inspected for cortical erosion by the tape cerclage after cyclic loading. Finally, the constructs underwent superior plane load-to-failure testing.

RESULTS

Less displacement after cyclic loading was observed in the ACCR + C (mean ± SD, 0.42 ± 0.32 mm), TGS + C (0.92 ± 0.42 mm), and CS (0.93 ± 0.39 mm) groups as compared with the ACCR group (4.42 ± 3.40 mm; P = .002). ACCR + C (813.3 ± 257.5 N), TGS + C (558.0 ± 120.7 N), and CS (759.5 ± 173.7 N) demonstrated significantly greater load at failure relative to ACCR (329.2 ± 118.2 N) (P < .001). ACCR + C (60.88 ± 17.3 N/mm), TGS + C (44.97 ± 9.15 N/mm), and CS (54.52 ± 14.24 N/mm) conferred greater stiffness than ACCR (27.43 ± 6.94 N/mm) (P = .001). No cortical erosion was demonstrated in any specimen after cyclic loading.

CONCLUSION

In a cadaveric model at time zero, repairs utilizing a tape cerclage system confer significantly greater load to failure and stiffness, as well as decreased displacement with cyclic loading, when compared with traditional ACCR repair.

CLINICAL RELEVANCE

Tape cerclage augmentation may provide a useful augment for CC ligament reconstruction.

Arthroscopically Assisted Double-Loop Suture Repair for Acute Acromioclavicular Joint Disruption

The surgical management of acute high-grade acromioclavicular (AC) joint (ACJ) injuries has evolved during the last decades. Numerous surgical techniques exist and recently arthroscopically assisted or all endoscopic techniques have gained popularity due to certain advantages. The goals of the new anatomic coracoclavicular ligament reconstruction techniques are to achieve anatomic reduction of the ACJ to allow and facilitate primary healing of AC and coracoclavicular (CC) ligaments, and also to minimize the risk of associated complications. We regularly use the open repair with double-loop sutures for the acute ACJ disruption, as described by Dimakopoulos et al. at 2006. In this surgical technique article, we present the arthroscopically assisted technique for the double-loop suture repair.

Hardware-free MPFL reconstruction in patients with recurrent patellofemoral instability is safe and effective

PURPOSE

This systematic review evaluated the clinical outcomes of hardware-free MPFL reconstruction techniques in patients with recurrent patellofemoral instability, focusing on patient-reported outcome measures (PROMs), redislocation rate, and complications. The hypothesis was that hardware-free MPFL reconstruction in patients with recurrent patellofemoral instability is safe and effective.

METHODS

This systematic review was conducted following the PRISMA guidelines. PubMed, Scopus, and Virtual Health Library databases were accessed in October 2021. All the clinical studies investigating the efficacy and feasibility of hardware-free MPFL reconstruction were screened for inclusion. Only studies with a minimum 24-month follow-up were considered eligible. Kujala Anterior Knee Pain Scale improvement and redislocation rate after surgical treatment were evaluated as primary outcomes. The rate of postoperative complications was evaluated as a secondary outcome. The quality of the methodological assessment was assessed using the Modified Coleman Methodology Score.

RESULTS

Eight studies were included in the present systematic review. The quality of the methodological assessment was moderate. Short- to long-term improvement of Kujala score was observed in all included studies. Mean score improvement ranged from + 13.2/100 to + 54/100, with mean postoperative scores ranging from 82/100 to 94/100. Patellar redislocation was observed in 8.33% (8 of 96) patients.

CONCLUSION

Hardware-free MPFL reconstruction with or without associated soft-tissue or bony realignment procedures provided reliable clinical improvements and was associated with a low rate of redislocation in patients with recurrent patellofemoral instability. Advantages such as safety, femoral physis preservation, and comparable complication profiles with implant-based techniques endorse its implementation. Orthopedic surgeons in cost-sensitive environments may also benefit their patients with lower costs, no need for implants, lack of implant-related complications, or surgery for implant removal.

LEVEL OF EVIDENCE

Level IV.