The use of articulated external fixation for complex elbow trauma treatment

Lateral Ulnar Collateral Ligament Repair With Suture-Tape Augmentation for Traumatic Elbow Instability

PURPOSE

Ligament repair with suture-tape augmentation has been used in the operative treatment of joint instability and may have advantages with respect to early motion and stability. The purpose of this investigation was to describe the clinical results of traumatic elbow instability treated with lateral ulnar collateral ligament repair with suture-tape augmentation.

METHODS

All cases of acute and chronic elbow instability treated surgically between 2018 and 2020 were included if they underwent ligament repair with suture-tape augmentation of the lateral ulnar collateral ligament as part of the procedure. Cases with <6 months of follow-up were excluded. A manual chart review was performed to record patient demographics as well as injury and surgery characteristics. Radiographic outcomes, range of motion, and patient-reported outcome measures, including the visual analog pain scale and Disabilities of the Arm, Shoulder, and Hand, were recorded. Range of motion measurements were recorded at the end of the clinical follow-up, as were surgical complications.

RESULTS

Eighteen cases were included with a mean follow-up of 20 months. Five (28%) cases involved a high-energy mechanism, and 11 (62%) cases involved terrible triad fracture dislocations. The mean Disabilities of the Arm, Shoulder, and Hand questionnaire and visual analog pain scale scores were 17 and 2, respectively. The mean flexion-extension arc was 124°, and 2 (11%) cases had <100° flexion-extension arc. There were 2 (11%) postoperative complications, and both cases had postoperative instability requiring reoperation. We observed no cases of capitellar erosion from the suture-tape material.

CONCLUSIONS

For complex elbow instability, ligament repair with suture-tape augmentation of the lateral ulnar collateral ligament results in acceptable functional outcomes and a reoperation rate comparable with other joint stabilization procedures.

TYPE OF STUDY/LEVEL OF EVIDENCE

Therapeutic IV.

Modified pin and plate fixation for low intercondylar fractures of the humerus: biomechanical study corroborated with a case series

BACKGROUND

Establishing fracture union of low and comminuted intercondylar fractures of the humerus is inherently challenging. The purposes of the present study were to investigate the biomechanical effectiveness of pin & plate (PP) fixation compared to other dual-plating techniques by finite element analysis, and to present a technical description as well as retrospectively review the outcomes of PP fixation in such difficult fractures.

METHODS

Low-level intercondylar fracture 3D models of the humerus were virtually stabilized with three fixations on lateral side including PP, lateral pre-contoured locking compression plate (L-LCP), and variable angle lateral pre-contoured locking plate (VA-L-LCP) whereas medial pre-contoured locking compression plate (M-LCP) on medial side. Loading conditions under consideration were axial compression, internal rotation, posterior bending, and valgus rotation. Regarding the clinical series, eight patients with intra-articular and comminuted fractures of the distal humerus (6 intercondylar fractures, 1 fracture-subluxation, and 1 isolated lateral condylar fracture) were operated by isolated PP fixation or combinations of PP and the other standard implants. Data were collected on fracture union, perioperative complications, and objective clinical outcomes.

RESULTS

Biomechanical results revealed the most instability of the fracture occurring under posterior bending. PP fixation presented comparable fracture stability and fragment displacement compared to other dual-plating fixations, except stress on the Kirschner wire under internal rotation which was higher than other fixations. Regarding the clinical series, fracture union was achieved in all cases with an average union time of 17 weeks (range 12-20). All except one patient had good-to-excellent MEPS results with an average Disabilities of the Arm, Shoulder, and Hand (DASH) score of 14.6 (range 0-45) and an average arc of elbow motion of 107.5 degrees (range 60-140).

CONCLUSION

By the biomechanical performance, PP fixation is a reliable technique for fixation of low intercondylar fractures of the humerus. Supported by the clinical outcomes, the present technique could be an alternative for this particular fracture especially when severe comminution prevents the use of the standard dual plating technique.

The adjunct use of lateral hinged external fixator in the treatment of traumatic destabilizing elbow injuries

PURPOSE

The purpose of this study is to evaluate the results of using a lateral hinged external fixator as an adjunct stabilizer in the treatment of a variety of acute destabilizing elbow injuries.

METHODS

A retrospective review was performed on the medical records of patients in whom a lateral monolateral elbow hinged external fixator was applied by the senior author. The indication to apply the fixator corresponded to a variety of acute injury patterns ranging from simple elbow trauma or dislocation to complex fracture-dislocation, and the decision was based on either the presence of recurrent or persistent instability in any direction and/or to secure a vulnerable or weak bony fixation or soft tissue repair as intra-operatively judged by the surgeon. The fixator was inserted in the same setting after the repair of the associated ligamentous and/or bony structures. Patients operated after one month of the trauma and those presented with open elbow injury or associated humeral or ulnar shaft fracture were excluded. Rehabilitation was immediately started and the fixator removed at six to eight weeks with elbow testing and gentle manipulation under general anaesthesia, and resuming of rehabilitation after removal. Clinical assessment was performed for all patients according to the Mayo Elbow Performance Score (MEPS) with evaluation of range of motion at regular intervals till the end of the post-operative first year, then at final follow-up for the purpose of the study with radiographic assessment for evaluation of elbow reduction and concentricity.

RESULTS

There were 13 patients with a mean age of 42 years. Two patients had instability secondary to LCL rupture; one patient had redislocation because of associated coronoid process fracture; one patient had radial head fracture with rupture of both collateral ligaments; five patients had terrible triad injury with variable association of collateral ligaments lesions; and four patients had posterior Monteggia fracture-dislocation. The mean MEPS was 90 at a mean follow-up of seven years with six excellent, six good, and one fair result. All patients had a concentrically reduced and stable elbow as assessed clinically and radiologically with a mean functional arc of motion of 132° for extension-flexion and 178° for pronation-supination.

CONCLUSION

The hinged elbow external fixator represents a valuable adjunct in the therapeutic arsenal for the treatment of unstable elbows after bony and soft tissue repair. It provides satisfactory results in terms of stability and function and should be available in the operating room when a surgeon treats a complex elbow dislocation or fracture-dislocation.

A Peculiar Case of Open Complex Elbow Injury with Critical Bone Loss, Triceps Reinsertion, and Scar Tissue might Provide for Elbow Stability?

Background

Complex elbow injuries (CEIs) are severe and rare lesions, difficult to treat correctly due to the different patterns of clinical presentations. Standard methods cannot often be applied. The main goals of the treatment are performing a stable osteosynthesis of all fractures, obtaining a concentric and stable reduction of the elbow by repairing the soft tissue constraint lesions, and allowing early motion. Since the introduction of virtual reality (VR) approaches in clinical practice, three-dimensional (3D) computed tomography (CT) and 3D printing have revolutionised orthopaedic surgeries, thus helping to understand the anatomy and the pathology of complex cases.

Case description

We discussed a case of CEI, characterised by an extended soft tissue (IIIB Gustilo classification) and neurovascular lesions associated with bone loss in a young female patient. Olecranon fracture was type IIIB according to Mayo classification. We outlined the steps of a pluri-tissue reconstructive approach and stressed the importance of 3D printing in the preoperative planning for such cases. Finally, peculiar final functional patient outcomes were reported.

Conclusion

In this case, we found out that triceps reinsertion and scar process may provide for the joint stability in a low-demanding patient. 3D printing and VR approaches in clinical practice can be useful in the management of CEIs associated with an important bone and soft tissue loss.

How to cite this article

Facco G, Politano R, Marchesini A, et al. A Peculiar Case of Open Complex Elbow Injury with Critical Bone Loss, Triceps Reinsertion, and Scar Tissue might Provide for Elbow Stability? Strategies Trauma Limb Reconstr 2021;16(1):53-59.