Alice Moisan

Supracondylar Humeral Fractures with Isolated Anterior Interosseous Nerve Injuries: Is Urgent Treatment Necessary?

BACKGROUND It is unclear if pediatric patients with a supracondylar humeral fracture and isolated anterior interossous nerve injury require urgent treatment. METHODS A retrospective, multicenter study of 4409 patients with operatively treated supracondylar humeral fractures was conducted. Exclusion criteria were additional nerve injuries other than the anterior interosseous nerve, any sensory changes, pulselessness, ipsilateral forearm fractures, open fractures, less than two months of follow-up, or pathological fractures. RESULTS Thirty-five of 4409 patients met inclusion criteria. The average time to surgery was 14.6 hours (range, two to thirty-six hours). No patient developed compartment syndrome. There was no significant difference in time to return of anterior interosseous nerve function relative to the time to surgical reduction and fixation (p = 0.668). A complete return of anterior interosseous nerve function occurred in all patients with an average time of forty-nine days (range, two to 224 days). Ninety percent of patients recovered anterior interosseous nerve function by 149 days. CONCLUSIONS To our knowledge, this is the largest series to date of supracondylar humeral fractures with anterior interosseous nerve injuries. There is no evidence that a supracondylar humeral fracture with an isolated anterior interosseous nerve injury requires urgent treatment. A delay in treatment up to twenty-four hours was not associated with an increased time of nerve recovery or other complications. This series excluded patients with sensory nerve injuries, pulselessness, and ipsilateral forearm fractures, which all may require urgent surgery. Barring other clinical indications for urgent treatment of a supracondylar humeral fracture, an isolated anterior interosseous nerve injury (no sensory changes) may not by itself be an indication for urgent surgery. The anterior interosseous nerve injuries in this series showed complete recovery at a mean time of forty-nine days.

Use of Vertical Expandable Prosthetic Titanium Rib (VEPTR) in the Treatment of Congenital Scoliosis Without Fused Ribs.

Background: Although the vertical expandable prosthetic titanium rib (VEPTR) has been shown to be useful in treating congenital scoliosis (CS) with fused ribs, no studies to date have specifically evaluated the efficacy of VEPTR in the treatment of CS without fused ribs. The purpose of this study was to determine the effectiveness of VEPTR in sagittal/coronal curve correction and spine growth and compare its complication rate to the use of VEPTR in other conditions and to other treatment methods used for CS. Methods: A multicenter database was queried for patients with CS without fused ribs treated with VEPTR. Anteroposterior (AP) and lateral radiographs were used to measure parameters at 3 timepoints (preoperative, immediate postoperative, and latest follow-up): coronal Cobb angle, sagittal kyphosis, and thoracic and lumbar spine heights. Clinical data included age, time to follow-up, and complications. Results: Twenty-five patients (13 females, 12 males) were identified. The average age at implantation was 5.7 years, with an average follow-up of 50 months. Several parameters improved from preoperative to latest follow-up: coronal Cobb angle (69 to 54 degrees, P<0.0001), thoracic spine height (T1-T12) in the AP (13.3 to 15.9 cm, P<0.0001) and lateral (14.8 to 17.4 cm, P=0.0024) planes, and lumbar spine height (L1-S1) in the AP (8.8 to 11.4 cm, P<0.0001) and lateral (9.9 to 11.9 cm, P=0.0002) planes. Kyphosis increased over the study period (36 to 41 degrees, P=0.6). Fifteen patients (60%) had 41 complications (average 2.75; range, 1 to 12). Twenty-eight complications (68%) were device-related, and 13 (32%) were disease-related. The most common complications were infection, wound dehiscence, and device migration. Six complications (15%) altered the course of treatment. Thoracic spine height increased 79% of expected growth. Conclusion: VEPTR is an effective treatment for patients with CS without fused ribs, as evidenced by improved radiographic parameters and increased spinal height, with a complication rate which is high but similar to other methods of treatment. Level of Evidence: Level IV—case series.

Transverse fractures of the femoral shaft are a better predictor of nonaccidental trauma in young children than spiral fractures are.

BACKGROUND Certain fracture configurations, especially spiral fractures, are often thought to be indicative of nonaccidental trauma in children. The purpose of this study was to determine whether femoral fracture morphology, as determined by an objective measurement (fracture ratio), was indicative of nonaccidental trauma in young children. METHODS Consecutive patients who were three years of age or younger and had a closed, isolated femoral shaft fracture treated at an urban pediatric level-I trauma center between 2005 and 2013 were identified. Anteroposterior and lateral fracture ratios (fracture length/bone diameter) were calculated for each patient by a fellowship-trained pediatric orthopaedic surgeon who was blinded to the patients clinical history. The presence or absence of a Child Protective Services referral as well as institutional Child Assessment Program evaluations were reviewed. Nonaccidental trauma was deemed to be present, absent, or indeterminate by Child Protective Services or an on-site Child Assessment Program team. To further evaluate and quantify the likelihood of nonaccidental trauma, the criteria of the Modified Maltreatment Classification System were used. RESULTS Of 122 patients identified, ninety-five met the inclusion criteria for this study. Of these ninety-five, fifty-one (54%) had either a Child Protective Services or a Child Assessment Program consultation because of suspected nonaccidental trauma. Thirteen (25%) were found to have nonaccidental trauma as determined by Child Protective Services or the Child Assessment Program team and seven (14%) had indeterminate Child Protective Services or Child Assessment Program investigations. All thirteen patients with nonaccidental trauma, as well as the seven patients with an indeterminate Child Protective Services or Child Assessment Program investigation, had positive Modified Maltreatment Classification System scores for physical abuse. Patients who had nonaccidental trauma had significantly decreased mean anteroposterior fracture ratios compared with those who had confirmed accidental trauma (p < 0.0001). CONCLUSIONS The fracture ratio can be helpful to determine fracture morphology and can be used as part of the assessment of a child with suspected nonaccidental trauma. While not diagnostic, the presence of a transverse diaphyseal femoral fracture in a young child should raise the index of suspicion for nonaccidental trauma. LEVEL OF EVIDENCE Prognostic Level III. See Instructions for Authors for a complete description of levels of evidence.

Intraobserver and interobserver reliability and the role of fracture morphology in classifying femoral shaft fractures in young children.

Background: Spiral fractures of long bones have long been cited as indications of non-accidental trauma (NAT) in children; however, fracture types are only loosely defined in the literature, and intraobserver and interobserver variability in defining femoral fracture patterns is rarely mentioned. We sought to determine reliability in classifying femoral fractures in young children using a standard series of radiographs shown to physicians with varied backgrounds and training and to determine if a quantitative approach based on objective measurements made on plain radiographs could improve definition of these fractures. Methods: On 50 radiographs, the fracture ratio—fracture length divided by bone diameter—was determined and radiographs were reviewed by 14 observers, including pediatric orthopaedic surgeons, emergency room physicians, and musculoskeletal radiologists, who classified the fractures as transverse, oblique, or spiral. A second review of the images in a different order was carried out at least 10 days after the first. Results: Overall, intraobserver agreement was strong, whereas interobserver reliability was moderate. Experience level did not correlate with either result. Complete agreement among all observers occurred for only 5 fractures: 3 transverse and 2 spiral. An average fracture ratio near 1.0 appeared to be predictiveof a transverse fracture and a ratio of >3.0, a spiral fracture; ratios between these 2 values resulted in essentially random classification. Conclusions: The ability to reproducibly classify femoral fractures in young children is highly variable among physicians of different specialties. These results support the belief that fracture morphology has little predictive value in NAT because of the wide variability in what observers classify as a spiral fracture of the femur. Caution should be used in the use of descriptive terms such as spiral, oblique, or transverse when classifying femoral fractures, as well as when evaluating children for possible NAT, because of the variability in classification. Level of Evidence: Level III—diagnostic study.

Medial ulnar collateral ligament origin in children and adolescents: an MRI anatomic study.

Background: The medial ulnar collateral ligament (MUCL) is the primary stabilizer against valgus stress on the elbow. The anatomy of the 3 bundles of the MUCL has been well studied in adults, but our review of the English literature found no study evaluating the origin of the MUCL in a large group of asymptomatic, skeletally immature elbows as it relates to the medial epicondylar physis. Methods: Magnetic resonance T1-coronal images of 44 skeletally immature elbows (ages 5 to 17 y) with no history of fracture were evaluated by 2 independent musculoskeletal radiologists, a board-certified orthopaedic surgeon with fellowship training in pediatric orthopaedics, and an orthopaedic surgery resident. The location of the origin of the anterior bundle of the MUCL (aMUCL) was identified and its distance from the medial epicondylar physis was measured. Results: All 44 images showed that the aMUCL attached either on or medial to the medial epicondylar physis. The average distance from the origin of the aMUCL to the medial epicondylar physis was 3.1 mm. There was no statistically significant relationship between age and location of the aMUCL insertion relative to the physis (P=0.183). Conclusions: In the skeletally immature elbow, the aMUCL originates medial to the medial epicondylar physis. Clinical Relevance: Although treatment of medial epicondylar humeral fractures remains controversial, understanding the relationship between the aMUCL and the medial epicondylar physis may be helpful in making decisions regarding fracture management.

Use of a Core Reamer for the Resection of a Central Distal Femoral Physeal Bone Bridge: A Novel Technique with 3-Year Follow-up

A central distal femoral physeal bone bridge in a boy aged 5 years and 7 months was resected with a fluoroscopically guided core reamer placed through a lateral parapatellar approach. At 3-year follow-up, the boys leg-length discrepancy was 3.0 cm (3.9 cm preoperatively), and the physeal bone bridge did not recur. The patient had full function and no pain or other patellofemoral complaints. This technique provided direct access to the physeal bone bridge, and complete resection was performed without injury to the adjacent physeal cartilage in the medial and lateral columns of the distal femur, which is expected to grow normally in the absence of the bridge.

A Pulseless Extremity Following an Apparently Nondisplaced Proximal Humeral Physeal Fracture

This case report describes a pediatric physeal fracture that was notable because axillary artery entrapment developed as a result of a Salter-Harris type-II fracture of the proximal part of the humerus even though the fracture appeared to be nondisplaced on radiographs. To our knowledge, this is the first reported case of this type of injury in the English-language literature; it highlights the need for careful neurovascular examination of all patients with fractures, even those that appear to be minimally displaced or nondisplaced. The patient and her parent were informed that data concerning the case would be submitted for publication, and consent was provided in accordance with the requirements of our institutional review board. A nine-year-old, otherwise healthy, right-hand-dominant girl presented to the emergency department after evaluation in an urgent care center with the symptom of “inability to feel” or move the left arm following a fall while doing cartwheels. She described falling in an “odd way” and feeling immediate pain in the left shoulder. She had a pulseless and cool left upper extremity. She was transferred to our children’s hospital for additional evaluation and treatment. No radiographs had been taken at the urgent care center. On arrival at the children’s hospital, approximately four hours after injury, the patient had regained some subjective sensation in the arm; however, the extremity remained pulseless. The hand was cool to the touch, and the capillary refill was three seconds in all digits. Doppler ultrasound showed that pulses were absent distal to the axilla in the left arm. Radiographs of the affected shoulder and humerus were initially interpreted as normal in the emergency department. A vascular surgery consultation was obtained. Angiography of the left upper extremity showed complete interruption of blood flow of the axillary artery at the level of the axilla (Fig. 1). When …