Hilton P. Gottschalk

Medial epicondyle fractures in the pediatric population.

Humeral medial epicondyle fractures in the pediatric population account for up to 20% of elbow fractures, 60% of which are associated with elbow dislocation. Isolated injuries can occur from either direct trauma or avulsion. Medial epicondyle fractures also occur in combination with elbow dislocations. Traditional management by cast immobilization increasingly is being replaced with early fixation and mobilization. Relative indications for surgical fixation include ulnar nerve entrapment, gross elbow instability, and fractures in athletic or other patients who require high‐demand upper extremity function. Absolute indications for surgical intervention are an incarcerated fragment in the joint or open fractures. Radiographic assessment of these injuries and their true degree of displacement remain controversial.

Gait analysis of children treated for moderate clubfoot with physical therapy versus the Ponseti cast technique.

Background Nonoperative methods for clubfoot treatment include the Ponseti technique and French functional method. The purpose of this study was to compare the gait of children presenting with moderate clubfeet who were treated successfully with these techniques. We hypothesized: (1) no difference in gait parameters of moderate clubfeet treated with either of these nonsurgical techniques and (2) gait parameters after treatment for less severe feet would more closely approximate normal gait. Methods Patients whose clubfeet were initially scored between 6 and <10 on the Dimeglio scale underwent gait analysis at the age of 2 years. Kinematic evaluation of the ankle was analyzed and kinematic data were classified as abnormal if more than 1 standard deviation from age-matched normal data. Spearman nonparametric correlation coefficients were used to analyze combined data of moderate to very severe clubfeet to determine any relationship between initial severity and gait outcomes. Results Gait analysis was performed on 33 patients with 40 moderate clubfeet [17 Ponseti, 23 French physical therapy (PT) feet]. Three Ponseti feet were excluded because they had undergone surgery. No statistically significant differences existed in ankle equinus, dorsiflexion, or push-off plantarflexion between the groups. Swing phase foot drop was present in 6 PT feet (26%) compared with zero Ponseti feet (P=0.026). Normal kinematic ankle motion was present more often in the Ponseti group (82%) than PT (48%) (P=0.027). Regardless of treatment, residual intoeing was seen in one-third of children with moderate clubfeet. The combined group of moderate and severe clubfeet showed no correlation between initial Dimeglio score and presence of normal ankle motion or normal gait at 2 years-of-age. Conclusions Normal ankle motion was documented more frequently in the Ponseti feet compared with the PT group. Recent implementation of early tendo-achilles release in PT feet may change these outcomes in the future. In conclusion, gait in children with moderate clubfeet is similar to those in patients with severe clubfeet, but the likelihood of surgery may be less. Level of Evidence Therapeutic level II.

Shoulder girdle: Patterns of trauma and associated injuries

Objectives: To develop a system of quantification of shoulder girdle injuries that stratifies their severity and to assess the association between shoulder girdle injuries and associated nonbony injuries to the head, thorax, and great vessels. Design: Retrospective review. Setting: Level I trauma center. Patients/Participants: Trauma registry data from all patients who required admission to the hospital from October 1995 through January 2008, specifically patients with shoulder girdle injuries. Excluded were patients with isolated burns and late effects of injuries. Intervention: Not applicable. Main Outcome Measures: The patterns of shoulder girdle injury and their association with severe, nonorthopaedic injuries (head, thoracic, and great vessel). Also, the severity of all combinations of shoulder girdle injuries were observed using two systems (relative risk totals and injury severity score). Results: Of 52,924 patients recorded, 2971 had 3811 shoulder girdle injuries. High-energy mechanisms prevailed, causing over 91% of all shoulder girdle injuries. The rates of head, great vessel, and thoracic injury in patients with a shoulder girdle injury were 31.5%, 3.9%, and 36.8%, respectively, and were significant when compared with nonshoulder girdle injuries (P < 0.001). The two most severe injury combinations included a sternum injury with either a clavicle or scapula fracture. Conclusions: Shoulder girdle injuries are strongly associated with great vessel, thoracic, and head injuries. In the presence of a sternum injury with a clavicle fracture or any open clavicle fracture, we recommend the routine use of a contrast-enhanced spiral thoracic computed tomography scan to aid in the diagnosis of a great vessel injury.

Reliability of internal oblique elbow radiographs for measuring displacement of medial epicondyle humerus fractures: a cadaveric study.

Background: Standard elbow radiographs (AP and lateral views) are not accurate enough to measure true displacement of medial epicondyle fractures of the humerus. The amount of perceived displacement has been used to determine treatment options. This study assesses the utility of internal oblique radiographs for measurement of true displacement in these fractures. Methods: A medial epicondyle fracture was created in a cadaveric specimen. Displacement of the fragment (mm) was set at 5, 10, and 15 in line with the vector of the flexor pronator mass. The fragment was sutured temporarily in place. Radiographs were obtained at 0 (AP), 15, 30, 45, 60, 75, and 90 degrees (lateral) of internal rotation, with the elbow in set positions of flexion. This was done with and without radio-opaque markers placed on the fragment and fracture bed. The 45 and 60 degrees internal oblique radiographs were then presented to 5 separate reviewers (of different levels of training) to evaluate intraobserver and interobserver agreement. Results: Change in elbow position did not affect the perceived displacement (P=0.82) with excellent intraobserver reliability (intraclass correlation coefficient range, 0.979 to 0.988) and interobserver agreement of 0.953. The intraclass correlation coefficient for intraobserver reliability on 45 degrees internal oblique films for all groups ranged from 0.985 to 0.998, with interobserver agreement of 0.953. For predicting displacement, the observers were 60% accurate in predicting the true displacement on the 45 degrees internal oblique films and only 35% accurate using the 60 degrees internal oblique view. Conclusions: Standardizing to a 45 degrees internal oblique radiograph of the elbow (regardless of elbow flexion) can augment the treating surgeon’s ability to determine true displacement. At this degree of rotation, the measured number can be multiplied by 1.4 to better estimate displacement. The addition of a 45 degrees internal oblique radiograph in medial humeral epicondyle fractures has good intraobserver and interobserver reliability to more accurately estimate the true displacement of these fractures. Level of Evidence: Diagnostic study, Level II (Development of diagnostic study with universally applied reference “gold” standard).

Effect of Osteochondroma Location on Forearm Deformity in Patients With Multiple Hereditary Osteochondromatosis

PURPOSE Multiple hereditary osteochondromatosis (MHO) is an autosomal-dominant skeletal dysplasia that may result in forearm deformity. The purpose of this study was 2-fold: to describe the natural history of forearm deformity in patients with MHO, with particular attention to those who develop radial head dislocation, and to determine predictors of deformity. METHODS We retrospectively reviewed charts of all patients with MHO evaluated at our institution. Patients with the presence of a radiographically visible osteochondroma in the forearm were divided into 5 groups or types based on location of the osteochondroma(s). Radiographic measurements included radial articular angle, percent ulnar variance, radial bow, radial length, ulnar length, and ulnar bow. The predictive values of each measure were statistically evaluated for each type with relation to radial head dislocation. RESULTS Of 146 patients with MHO, 102 patients (70%) had forearm involvement. Appropriate anteroposterior and lateral radiographs were available on 48 patients (76 forearms). Average age at initial radiographic evaluation was 12 years (range, 2-18 y). Average follow-up period was 7 years (range 1-19 y). Thirteen forearms demonstrated radial head dislocation, with all but 1 reported in the type 1 limbs (solitary distal ulna osteochondroma). Radial head dislocation was noted in 34% (12/35 forearms) of type 1 limbs. CONCLUSIONS Forearms with isolated osteochondromas of the distal ulna are the ones most likely to develop radial head dislocation. Because the ulna growth is disproportionately less than radial growth, the soft tissues may act as a tether, linking the distal radius and ulna, and lead to radial head dislocation. Changes in radiographic measurements may predict limbs at risk for radial head dislocation.

Biomechanical Analysis of Pin Placement for Pediatric Supracondylar Humerus Fractures: Does Starting Point, Pin Size, and Number Matter?

Background: Several studies have examined the biomechanical stability of smooth wire fixation constructs used to stabilize pediatric supracondylar humerus fractures. An analysis of varying pin size, number, and lateral starting points has not been performed previously. Methods: Twenty synthetic humeri were sectioned in the midolecranon fossa to simulate a supracondylar humerus fracture. Specimens were all anatomically reduced and pinned with a lateral-entry configuration. There were 2 main groups based on specific lateral-entry starting point (direct lateral vs. capitellar). Within these groups pin size (1.6 vs. 2.0 mm) and number of pins (2 vs. 3) were varied and the specimens biomechanically tested. Each construct was tested in extension, varus, valgus, internal, and external rotation. Data for fragment stiffness (N/mm or N mm/degree) were analyzed with a multivariate analysis of variance and Bonferroni post hoc analysis (P<0.05). Results: The capitellar starting point provided for increased stiffness in internal and external rotation compared with a direct lateral starting point (P<0.05). Two 2.0-mm pins were statistically superior to two 1.6-mm pins in internal and external rotation. There was no significant difference found comparing two versus three 1.6-mm pins. Conclusions: The best torsional resistances were found in the capitellar starting group along with increased pin diameter. The capitellar starting point enables the surgeon to engage sufficient bone of the distal fragment and maximizes pin separation at the fracture site. In our anatomically reduced fracture model, the addition of a third pin provided no biomechanical advantage. Clinical Relevance: Consider a capitellar starting point for the more distally placed pin in supracondylar humerus fractures, and if the patient’s size allows, a larger pin construct will provide improved stiffness with regard to rotational stresses.

Metacarpal Synostosis: Treatment With a Longitudinal Osteotomy and Bone Graft Substitute Interposition

PURPOSE To describe a case series of congenital metacarpal synostosis treated with longitudinal osteotomy and bone graft substitute interposition. METHODS We retrospectively reviewed charts of all patients with metacarpal synostosis treated with a longitudinal osteotomy and bone graft substitute interposition at 2 institutions. Radiographic and clinical appearances were analyzed at initial diagnosis, intraoperatively, and at last follow-up. RESULTS A total of 10 patients (14 hands) met the inclusion criteria. Six patients (8 hands) demonstrated ring-little finger metacarpal synostosis and 4 patients (6 hands) had a middle-ring finger metacarpal synostosis. The median age at operation was 5 years (range, 2-16 y). Follow-up ranged from 1 to 14 years (average, 3 y). Associated hand anomalies included polydactyly, symbrachydactyly, and clinodactyly. Before surgery, the little finger proximal phalanx was angulated away from the middle finger metacarpal on average 46° (range, 26°-60°), and the angulation between the middle and the ring fingers averaged 43° (range, 26°-50°). Postoperative correction at 1 year was statistically significant for both ring-little finger metacarpal synostosis, average 23° (range, 10°-30°), and middle-ring finger metacarpal synostosis, average 16° (range, 5°-44°). Recurrence of digital abduction was evident in 2 patients who had middle-ring finger metacarpal synostosis. CONCLUSIONS Metacarpal synostosis is an uncommon congenital hand anomaly characterized by the coalescence of 2 adjacent metacarpals. In the most common form, the ring and little finger metacarpals are associated with abduction of the small finger in an awkward position. Use of the described technique is safe and effective, yet concerns remain regarding mild persistent angulation and risk of recurrence. CLINICAL RELEVANCE Congenital metacarpal synostosis may be effectively treated with a longitudinal osteotomy, realignment of component metacarpals, and interposition of bone graft substitute. When the procedure is performed at a young age, we recommend follow-up until skeletal maturity to identify recurrence of the deformity. TYPE OF STUDY/LEVEL OF EVIDENCE Therapeutic IV.

Open Clavicle Fractures: Patterns of Trauma and Associated Injuries

Objectives: To describe the demographic distribution, mechanism of injury, and associated injuries of patients sustaining open clavicle fractures. Design: Retrospective case series. Setting: Level I trauma center. Patients/Participants: Trauma registry data from all patients who required admission to the hospital from October 1995 through January 2010, specifically patients with open clavicle fractures. Intervention: Not applicable. Main Outcome Measurements: The patterns of open clavicle fractures and their association with severe, nonorthopaedic injuries (head, thoracic, and great vessel). Results: Fifty-three patients with open clavicle fractures were identified, and they were organized by mechanism of injury: 21 sustained blunt injuries, 26 penetrating injuries, and six not specified. No difference between blunt and penetrating injuries existed with respect to age, Injury Severity Score, inpatient days, or mortality rates. Blunt injuries were more likely associated with head injuries (52%) versus penetrating injuries (22%), but penetrating injuries were more likely associated with a great vessel injury (27% vs 7%, respectively), all statistically significant (P = 0.0487). Conclusions: Open clavicle fractures are rare injuries. Patients often have associated head, thoracic, and great vessel injuries. Penetrating injuries have higher rates of great vessel injuries and that blunt force injuries have higher rates of head injuries.

Improving diagnostic efficiency: analysis of pelvic MRI versus emergency hip aspiration for suspected hip sepsis.

Background: Accurately diagnosing and treating childhood hip sepsis is challenging. Adjacent bone and soft-tissue infections are common and can lead to delayed and inappropriate treatment. This study evaluated the effect of early advanced imaging (bone scan, magnetic resonance imaging) in the management of suspected hip sepsis. Methods: A retrospective review of pediatric patients admitted between 2003 and 2009 with suspected hip sepsis was performed. Patients were classified into 2 categories: group I—immediate hip aspiration or group II—advanced imaging performed before intervention. Results: In total, 130 patients (53 in group I and 77 in group II) were included. No significant differences were found between the groups with regard to laboratory values, temperature, number of anesthetics, and length of hospital stay. However, patients in group I were younger than in group II (5.4 vs. 7.3 y, P=0.02) and more patients in group I were unable to bear weight on the affected limb compared with group II (83% vs. 61%, P=0.009). In group I, 36 patients (68%) had a septic hip compared with 35 patients (45%) in group II. In group I, 16 patients (30%) required reoperation versus 13 (17%) patients in group II. Results from the multivariate analysis demonstrated that reoperation was required 2.8 times (95% confidence interval, 1.12-6.78) more often in group I as compared with group II (P=0.03). Conclusions: Advanced imaging performed before hip aspiration improves diagnostic efficacy and may decrease the need for reoperation. Level of Evidence: III.

Late Reconstruction of Ulnar Nerve Palsy

Ulnar nerve palsy results in significant loss of sensation and profound weakness, leading to a dysfunctional hand. Typical clinical findings include loss of key pinch, clawing, loss of normal flexion sequence of the digits, loss of the metacarpal arch, and abduction of the small finger. Further deficits in hand/wrist function are seen in high-level ulnar nerve palsy, including loss of ring- and small-finger distal interphalangeal flexion, decreased wrist flexion, and loss of dorsal sensory innervation. This article reviews the clinical findings seen in low and high ulnar nerve palsies, and reviews surgical options for correcting certain motor and sensory deficits.