Arthroscopic-assisted reduction and percutaneous external fixation of lateral condyle fractures of the humerus

Arthroscopically assisted closed reduction for displaced lateral humeral condyle fractures over 4 mm in children

INTRODUCTION

Lateral humeral condyle fractures (LHCFs) are the most common intra-articular fracture occurring at the elbow in children. Conventional treatment for displaced pediatric LHCFs is open reduction and percutaneous pinning, and few studies have regarded the efficacy of arthroscopic-assisted techniques. We aimed to evaluate the efficacy of anatomic reduction via elbow arthroscopy for pediatric humeral lateral condyle fractures with displacements >4 mm.

METHODS

A total of 32 children with LHCFs featuring displacements >4 mm were enrolled in this retrospective study. Arthroscopically assisted reduction was performed as the primary treatment approach. For simple displaced fractures, arthroscopically assisted reduction was directly employed with intermittent intra-articular irrigation. For fractures with distal fragment rotation, the rotated fragments were firstly realigned into a simple displaced position under fluoroscopy before proceeding with arthroscopy. The success rate of arthroscopically assisted reduction and clinical outcomes at the latest follow-up were assessed, and complications related to the procedure were monitored.

RESULTS

Twenty-nine of 32 (90.62 %) enrolled cases were successfully treated with arthroscopically assisted reduction. Failure cases were attributed to soft tissue swelling, which hindered the manipulation of the fracture fragments for reduction or fixation. We subsequently adapted the surgical procedure, resulting in a significant increase in the success of arthroscopically assisted reduction, rising from 71.43 % to 96 %. Among the 29 successfully treated cases, excellent functional outcomes were observed in 18 cases, and 11 cases showed good outcomes. Regarding the carrying angle outcomes, 28 patients achieved excellent results, with one patient having a good outcome. The most frequent radiographic finding after surgery was lateral spur formation without further negative effects. Only one case of superficial infection occurred, promptly healing with topical management. No significant complications such as neurovascular injury or compartment syndrome were observed.

CONCLUSION

Arthroscopically assisted anatomic reduction provides a promising alternative to open reduction for LHCFs with displacements exceeding 4 mm, offering direct visualization of the articular surface and minimizing soft tissue dissection.

Arthroscopy of the Pediatric Elbow: Review of the Current Concepts

As surgeons have become more familiar with elbow arthroscopy, the indications for arthroscopy of the pediatric elbow have expanded to include contracture releases, fracture fixation, treatment of osteochondritis dissecans (OCD) lesions, correction of elbow deformity, and debridement of soft tissue and bony pathologies. The treatment of various pathologies via an arthroscopic approach demonstrates equal, if not better, efficacy and safety as open surgery for the pediatric elbow. Arthroscopy provides the unique advantage of enabling the performance of extensive surgeries through a minimally-invasive approach, and it facilitates staged interventions in cases of increased complexity. For fracture work, arthroscopy enables direct visualization to assess reduction for percutaneous fixations. While future research is warranted to better evaluate the indications and outcomes of pediatric elbow arthroscopy, this update article presents a review of the current literature, as well as several innovative cases highlighting the potential of arthroscopy.

Current Concepts in the Treatment of Lateral Condyle Fractures in Children

Lateral condyle fractures of the humerus are the second most common fracture about the elbow in children. The injury typically occurs as a result of a varus- or valgus-applied force to the forearm with the elbow in extension. Plain radiographs are sufficient in making the diagnosis; however, an elbow arthrogram permits optimal visualization of the articular surface in minimally displaced fractures. Traditionally, nonsurgical management is indicated for fractures with ≤2 mm of displacement and a congruent articular surface. Closed reduction and percutaneous pinning is performed for fractures with >2 mm of displacement with an intact cartilaginous hinge at the articular surface. Open reduction and internal fixation is often necessary for fractures with ≥4 mm of displacement or if there is articular incongruity. Complications include malunion, delayed presentation, fishtail deformity, lateral spurring, and growth arrest. Evolving management concepts include relative indications for surgical management, the optimal pin configuration, and the use of cannulated screw and bioresorbable fixation.

Outcomes of Arthroscopy-assisted Closed Reduction and Percutaneous Pinning for a Displaced Pediatric Lateral Condylar Humeral Fracture

BACKGROUND

Since 2015, we have performed arthroscopy-assisted closed reduction and percutaneous pinning (A/S-CRPP) for children with a displaced lateral condylar humeral fracture (LCF). The purpose of this study is to introduce our A/S-CRPP method and present its outcomes.

METHODS

In total, 39 displaced (>2 mm) LCFs for which A/S-CRPP was initially attempted and with available follow-up data of >12 months were retrospectively reviewed. A/S-CRPP is performed in the following order: closed reduction, 1 provisional K-wire fixation, arthroscopic verification of the reduction status, rereduction if needed, and additional fixation. Our reduction technique using articulations of the ulnohumeral and radiohumeral joints and direct compression is introduced. For rereduction, modified reduction forces were applied based on the arthroscopic findings. To evaluate the learning curve effect, the initial 6 months after the first case of A/S-CRPP was regarded as the "initial period." There were 12 cases during this period.

RESULTS

Among the 39 cases, surgical method was intraoperatively converted to open reduction and percutaneous pinning in 9 and A/S-CRPP was completed in 30. Among the 9 open reduction and percutaneous pinning conversion cases, 7 conversions occurred in the initial period. Among the 30 patients who underwent A/S-CRPP alone, 10 needed rereduction after an arthroscopic examination. No patients presented with >10-degree angular deformity or elbow motion limited >20 degrees, compared with the contralateral elbow. Postoperative radial nerve palsy occurred in 2 patients, all in the initial period. Both were resolved within 5 months, postoperatively.

CONCLUSIONS

We suggested our A/S-CRPP surgical technique for displaced pediatric LCF. It may require a 6-month learning curve period. Although more studies are needed, it seems to be a safe and appropriate surgical technique for treatment.

LEVEL OF EVIDENCE

Level IV-therapeutic study.

Arthroscopic Treatment of Pediatric Fractures

Management of pediatric articular fractures has evolved over the years with a growing interest in arthroscopic handling. Several factors account for this recent appeal among which are progress in technology with increased availability of diagnostic methods, rise in athletic activities responsible for these fractures, and pediatric orthopaedic surgeons getting familiar with arthroscopic techniques. In our institution, 9 of 100 arthroscopic procedures are performed as a consequence of an articular fracture. In total, 80% of the fractures concern the knee (56% of tibial eminence fracture, 24% osteochondral fracture). Most of the remaining 20% are located at the ankle joint. Given the thorough articular exploration that arthroscopy provides, any associated cartilaginous or meniscal lesions is identified and addressed in the same procedure as the fracture fixation. Being a less invasive surgery with low complication rate, arthroscopic management of pediatric articular fractures provides very satisfactory results with earlier recovery. Of note, it is technically demanding and requires constant training. The operative time should be monitored and alternative options considered for each surgery. In this regard, arthroscopy has to be viewed as a means not an end.

Diagnosis, management and complications of distal humerus lateral condyle fractures in children

We review the diagnosis, evaluation and management of paediatric lateral condylar fractures. The complications of these fractures are also discussed, including the management of fracture non-union.

Pediatric elbow arthroscopy: indications and safety

BACKGROUND

Elbow arthroscopy is a minimally invasive means by which to treat a variety of acute and chronic elbow conditions. Although the safety and efficacy is well documented in the adult population, comparatively little information is available about the role of elbow arthroscopy in the pediatric population. This study reports the indications for and safety of elbow arthroscopy in a series of pediatric patients.

METHODS

A retrospective review was performed from 2001 to 2015 of a surgical database at a single institution. All elbow arthroscopies performed in patients aged 18 years and younger were reviewed. Indications for surgery, perioperative and postoperative complications, further surgical intervention, and descriptive demographic information were recorded.

RESULTS

We identified 64 elbow arthroscopic procedures in 59 patients. The average age at the time of surgery was 11.8 years. Indications for the arthroscopic surgery included contracture release (45.3%), closed reduction and fixation for fracture (20.3%), treatment of osteochondritis dissecans (20.3%), diagnostic arthroscopy (7.8%), and débridement (6.3%). The overall complication rate was 17.2%, with a major and minor complication rate of 6.3% and 10.9%, respectively.

CONCLUSION

Elbow arthroscopy has applications in the pediatric population with an acceptable safety profile. The techniques and indications continue to evolve.

Arthroscopic management of articular and peri-articular fractures of the upper limb

The management of articular fractures is always a matter of concern. Each articular fracture is different from the other, whatever the classification system used and the surgical or non-surgical indications employed by the surgeon. The main goals remain anatomical reduction, stable fixation, loose body removal and minimal invasiveness.

Open procedures are a compromise. Unfortunately, it is not always possible to meet every treatment goal perfectly, since associated lesions can pass unnoticed or delay treatment, and even in a ‘best-case’ scenario there can be complications in the long term.

In the last few decades, arthroscopic joint surgery has undergone an exponential evolution, expanding its application in the trauma field with the development of arthroscopic and arthroscopically-assisted reduction and internal fixation (ARIF) techniques. The main advantages are an accurate diagnosis of the fracture and associated soft-tissue involvement, the potential for concomitant treatments, anatomical reduction and minimal invasiveness. ARIF techniques have been applied to treat fractures affecting several joints: shoulder, elbow, wrist, hip, knee and ankle.

The purpose of this paper is to provide a review of the most recent literature concerning arthroscopic and arthroscopically-assisted reduction and internal fixation for articular and peri-articular fractures of the upper limb, to analyse the results and suggest the best clinical applications.

ARIF is an approach with excellent results in treating upper-limb articular and peri-articular fractures; it can be used in every joint and allows treatment of both the bony structure and soft-tissues.

Post-operative outcomes are generally good or excellent. While under some circumstances ARIF is better than a conventional approach, the results are still beneficial due to the consistent range of movement recovery and shorter rehabilitation time.

The main limitation of this technique is the steep learning curve, but investing in ARIF reduces intra-operative morbidity, surgical errors, operative times and costs.

Cite this article: Dei Giudici L, Faini A, Garro L, Tucciarone A, Gigante A. Arthroscopic management of articular and peri-articular fractures of the upper limb. EFORT Open Rev 2016;1:325-331. DOI: 10.1302/2058-5241.1.160016.

Rate and Risk Factors for Delayed Healing Following Surgical Treatment of Lateral Condyle Humerus Fractures in Children

BACKGROUND

Lateral condyle humerus fracture nonunion after surgical fixation has been reported to be <1%. The purpose of this study was to evaluate the rate and risk factors for delayed healing of pediatric lateral condyle fractures after surgical fixation.

METHODS

Retrospective study of all operatively treated lateral condyle fractures at a single institution from 2006 to 2013 was performed. Radiographic evaluation included: measured fracture displacement at both presentation and after surgical fixation, fracture classification, and multiple parameters of pin configuration. Patients who had delayed healing were defined as those not healed by the eighth week of follow-up and were compared with those fractures that healed in <8 weeks to identify risk factors associated with delayed healing. Purposeful selection was utilized to identify factors for entry into a multivariate binary logistic regression model.

RESULTS

A total of 210 children were evaluated. Mean follow-up was 25 weeks (4 wk to 5 y). Distribution of Weiss classification was as follows: type 1, 8 (4%); type 2, 61 (29%); and type 3, 141 (67%). There were 33 (16%) delayed unions and 7 of these (3% of the entire cohort) required further surgery to achieve healing. Weiss classification, intraoperative fluoroscopy time, and intraoperative displacement after fixation met criteria for entry into the regression. While Weiss classification did not remain significant within the model, its removal resulted in a 30% change in the parameter estimate for intraoperative fluoroscopy time. For each second increase in fluoroscopy time, there is a 3% increase in the risk of delayed healing. Patients with >1 mm displacement of the lateral cortex after fixation had an increased risk of delayed healing (OR=4.78, P=0.007).

CONCLUSIONS

Delayed union of lateral condyle fractures is a matter of concern, and the rate of secondary surgery to achieve healing appears to be higher than previously reported. Risks for delayed healing include amount of residual displacement after reduction and the difficulty in attaining that reduction, as defined by fluoroscopy time.

LEVEL OF EVIDENCE

Level IV-therapeutic study, case series.

First 50 Pediatric and Adolescent Elbow Arthroscopies: Analysis of Indications and Complications

BACKGROUND

Elbow arthroscopy is a challenging, yet extremely productive procedure in orthopaedic sports medicine. The severely confined anatomy of the pediatric and adolescent elbow is particularly prone for perioperative complications. This study focuses on the indications and complications of the first 50 elbow arthroscopies in skeletally immature patients done in a specialized pediatric orthopaedic department.

PURPOSE

To review analysis of indications and complications in pediatric and adolescent elbow arthroscopy. We hypothesized that the complication rate in these patients is similar to adults.

METHODS

Data on 50 consecutive elbow arthroscopies were prospectively gathered in a dedicated database and retrospectively analyzed for indications and perioperative complications. All procedures were performed by a surgeon trained in orthopaedic sports medicine.

RESULTS

A total of 26 boys and 24 girls with a mean age of 13.6±3.3 years at the time of surgery and a minimum follow-up of 1 year were included.Fifty-eight percent were treated for osteochondritis dissecans, 24% for arthrofibrosis, 14% for a congenital disorder, and 4% for a posttraumatic problem other than arthrofibrosis. The complication rate was 8%, including 3 cases of transient neuropraxia and 1 superficial wound infection. There were no major complications such as septic arthritis, vascular injury, or permanent nerve damage. All complications resolved fully with conservative treatment, no revision were required.

DISCUSSION

Although osteochondritis dissecans is still the leading reason for such surgery, fractures and posttraumatic conditions are becoming more important. With a rate of 5% to 8% of minor, fully resolving complications such an increase is not a reason for concerns.

LEVEL OF EVIDENCE

Level IV-case series.

Arthroscopic Management of Elbow Fractures

Several types of elbow fractures are amenable to arthroscopic or arthroscopic-assisted fracture fixation, including fractures of the coronoid, radial head, lateral condyle, and capitellum. Other posttraumatic conditions may be treated arthroscopically, such as arthrofibrosis or delayed radial head excision. Arthroscopy can be used for assessment of stability or intra-articular fracture displacement. The safest portals are the midlateral (soft spot portal), proximal anteromedial, and proximal anterolateral. Although circumstances may vary according to the injury pattern, a proximal anteromedial portal is usually established first. Arthroscopy enables a less invasive surgical exposure that facilitates visualization of the fracture fragments in select scenarios.

Elbow arthroscopy in acute injuries

PURPOSE

Arthroscopy of the elbow has become a standard treatment option for many indications. The purpose of this article is to review literature concerning the use of arthroscopy for acute elbow injuries.

METHODS

The main medical literature databases were searched for articles on the use of elbow arthroscopy in acute injuries. A total of 13 publications relevant to the topic were included. The Coleman methodology score was used to assess the methods of each article.

RESULTS

All published articles have been case reports or retrospective case series. In fracture treatment, arthroscopy has been used in the treatment of displaced radial head, coronoid and capitellum fractures in adults and displaced radial neck and lateral humeral condyle fractures in children with good results. Endoscopic techniques have been used in distal biceps rupture and medial avulsion of the triceps. And also new techniques have been developed for the treatment of intra-articular soft-tissue lesions like rupture of the radial ulnohumeral ligament complex. One of the 13 studies analyzed was considered of good quality, 5 of moderate quality and all others of poor quality with inconsistent methodology and outcomes.

CONCLUSION

The range of treatments using elbow arthroscopy in acute injuries is expanding and brings new controversies and challenges. Single reports of arthroscopically treated bony and soft-tissue injuries of the elbow showed satisfactory results. However, further randomized prospective studies are needed to evaluate their safety and efficacy compared with open 'gold standard' techniques.

LEVEL OF EVIDENCE

IV.

Minimally invasive subtalar arthrodesis with iliac crest autograft through posterior arthroscopic portals: a technical note

Level of Evidence: V, Expert Opinion

Management of lateral humeral condylar fracture in children

Lateral condylar fractures constitute 12% to 20% of all pediatric distal humerus fractures. These fractures are easily missed and when not managed appropriately can displace. Missed fracture is a common cause of nonunion and deformity; thus, a high index of suspicion and adequate clinical and radiographic evaluation are required. Displaced fractures are associated with a high rate of nonunion. Nondisplaced fractures or those displaced ≤2 mm are managed with cast immobilization and frequent radiographic follow-up. Fractures displaced >2 mm are managed with surgical fixation. Successful outcomes have been reported with closed reduction, open reduction, and arthroscopically assisted techniques. Complications associated with pediatric lateral condylar fracture include cubitus varus, cubitus valgus, fishtail deformity, and tardy ulnar nerve palsy.

Lateral plantar nerve neuropraxia after FHL tendoscopy: case report and anatomic evaluation

BACKGROUND

FHL tendoscopy has been described as minimally invasive method used to create some pathologies or facilitate some surgeries. As we have encountered lateral plantar nerve neurapraxia, we investigate the cause of lateral nerve injury during Zone 2 flexor digitorum longus (FHL) tendoscopy with a cadaveric model.

MATERIAL AND METHOD

Eight feet of 4 embalmed cadavers were used for this study. Posterior ankle endoscopy (Zone 1 FHL tendoscopy) was performed with posteromedial and posterolateral portals. A 4.0-mm metal rod was inserted into the Zone 2 tendon health through the posteromedial portal. The distance between the posteromedial portal and the posterior tibial nerve was measured with the ankle in neutral position. Then, the shortest distance between the posterior tibial nerve and the rod was measured with the ankle in three positions: 20 degrees plan-tarflexion, neutral, and the 20 degrees dorsiflexion.

RESULT

The average distance between the posterior tibial nerve and the posteromedial portal was 9.3 mm. The average shortest distance between the posterior tibial nerve and the metal rod was 5 mm with the ankle in 20 degrees dorsiflexion.

CONCLUSION

Ankle dorsiflexion brings the posterior tibial nerve in contact with the arthroscope during Zone 2 tendoscopy.

CLINICAL RELEVANCE

In order to avoid potential nerve injury during Zone 2 FHL tendoscopy, ankle dorsiflexion should be avoided.

Current concepts in pediatric and adolescent arthroscopy

Arthroscopy continues to grow as a treatment modality for pediatric and adolescent orthopaedic pathologies. In recent years arthroscopic procedures previously reserved for adult patients have become more frequently used in the treatment of younger individuals. Advancements in arthroscopic instrumentation including smaller arthroscopes and tools have made the constraint of smaller joint spaces in the pediatric and adolescent populations less of a limiting factor when addressing surgical options for care. This is valuable considering the consistent increase in pediatric sports- and activity-related injuries, of which many are treatable arthroscopically. Currently, arthroscopy is indicated for the treatment of various chronic and acute injuries of the shoulder, elbow, wrist, hip, knee, and ankle. This review aims to highlight the current literature regarding arthroscopy in this population while also offering treatment algorithms, rehabilitation guidelines, and surgical tips for various pathologies in pediatric and adolescent patients.

A 3-portal approach for arthroscopic subtalar arthrodesis

We present a 3-portal approach for arthroscopic subtalar arthrodesis with the patient in the prone position. The prone position allows the use of the two standard posterior portals and it allows for accurate control of hindfoot alignment during surgery. Furthermore, the introduction of talocalcaneal lag screws is easy with the patient in this position. In addition to the standard posterior portals, an accessory third portal is created at the level of the sinus tarsi for introduction of a large diameter blunt trocar to open up the subtalar joint. Due to the curved geometry of the posterior subtalar joint, removal of the anterior articular cartilage is impossible by means of the posterior portals only. An advantage of the 3-portal approach is that ring curettes can be introduced through the accessory sinus tarsi portal to remove the articular cartilage of the anterior part of the posterior talocalcaneal joint. Arthroscopic subtalar arthrodesis in patients with a talocalcaneal coalition presents a technical challenge as the subtalar joint space is limited. The 3-portal technique was successfully used in three subsequent patients with a talocalcaneal coalition; bony union of the subtalar arthrodesis occurred at 6 weeks following surgery. With the 3-portal technique, a safe and time-efficient arthroscopic subtalar arthrodesis can be performed even in cases with limited subtalar joint space such as in symptomatic talocalcaneal coalition.