Hillard T. Spencer

The effects of surgical delay on the outcome of pediatric supracondylar humeral fractures.

Background Occasionally, the treatment of a pediatric supracondylar humeral fracture is delayed owing to lack of an available treating physician, necessitating transfer of the child, or delay in availability of an operating room. The purpose of this study is to prospectively evaluate whether delayed pinning of these fractures affects the outcome or number of complications. Methods We reviewed information that was prospectively collected on 145 pediatric supracondylar humeral fractures that were treated by closed reduction and percutaneous pinning, with a minimum follow-up of 8 weeks. To determine the effect of delayed treatment, we compared a group of fractures that was treated within the first 21 hours after their presentation to our urgent care center (Group A) with a group that was treated after more than 21 hours (Group B). We compared the following variables: need for open reduction, length of surgery, length of hospitalization, the presence of neurologic complications, vascular complications including compartment syndrome, pin tract infection, loss of fixation, final carrying angle, range of motion, and outcome. Results Overall, the mean time from presentation to surgery for both groups was 52 hours. This interval was greater for Gartland type II fractures (65 h) than for Gartland type III fractures (19 h) (P=0.00001). There was no need for an open reduction in either group. There were no significant differences between the groups regarding iatrogenic nerve injuries, vascular complications, compartment syndromes, surgical time, final carrying angle, range of motion, and outcome. Conclusions The results of this prospective study found that a delay in pinning closed supracondylar humeral fractures in children did not lead to a higher incidence of open reduction or a greater number of complications. Although the urgency of treating any child with a supracondylar fracture should be individualized, our study suggests that most of these injuries can be managed safely in a delayed fashion without compromising the clinical outcome. We recommend careful monitoring of any patient with type 3 injury whose treatment is delayed. Level of Evidence II.

Prospective Longitudinal Evaluation of Elbow Motion Following Pediatric Supracondylar Humeral Fractures

BACKGROUND Temporary elbow stiffness after the treatment of a supracondylar humeral fracture in a child is often a concern of parents. However, little attention has been devoted to documenting, longitudinally, the time required for motion recovery. The purpose of the present study was to provide a prospective, longitudinal evaluation of elbow motion in a large population of pediatric patients undergoing treatment of a supracondylar humeral fracture. METHODS We prospectively examined 373 patients (375 fractures) who presented to our urgent care center between March 1, 2007, and September 30, 2008. On the basis of a standard protocol, patients were managed with either casting or surgery, depending on the severity of the injury, and then were followed for a minimum of seven weeks. Values of elbow flexion and extension were recorded, and the relative arc of motion was calculated as a percentage of the motion of the contralateral elbow. RESULTS In general, following a supracondylar humeral fracture, the greatest increases in flexion, extension, and the absolute and relative arcs of motion are observed within the first month after cast removal, with a progressive improvement for up to forty-eight weeks after the injury. Age had a significant effect on the recovery of elbow motion, with patients older than five years of age demonstrating a 3% to 9% lower relative arc of motion at the follow-up points in comparison with younger patients. Similarly, patients with more-severe fractures requiring surgical treatment demonstrated a decrease in relative elbow motion of 10% (with respect to the contralateral side) at the time of cast removal in comparison with those who were managed nonoperatively. CONCLUSIONS The present study demonstrates that an initial rapid recovery in elbow motion can be expected after a supracondylar humeral fracture in a child, followed by a progressive improvement for up to one year after the injury. This motion recovery is slower in older patients and in those with more severe injuries.

Volar Plate Fixation Failure for Volar Shearing Distal Radius Fractures With Small Lunate Facet Fragments

PURPOSE To determine the percentage of AO B3 distal radius fractures that lose reduction after operative fixation and to see whether fracture morphology, patient factors, or fixation methods predict failure. We hypothesized that initial fracture displacement, amount of lunate facet available for fixation, plate position, and screw fixation would be significant risk factors for loss of reduction. METHODS A prospective, observational review was conducted of 51 patients (52 fractures) with AO B3 (volar shearing) distal radius fractures treated operatively between January 2007 and June 2012. We reviewed a prospective distal radius registry to determine demographic data, medical comorbidities, and physical examination findings. Radiographs were evaluated for AO classification, loss of reduction, length of volar cortex available for fixation, and adequacy of stabilization of the lunate facet fragment with a volar plate. Preoperative data were compared between patients who maintained radiographic alignment and those with loss of reduction. A multivariate logistic regression analysis was completed to determine significant predictors of loss of reduction. RESULTS Volar shearing fractures with separate scaphoid and lunate facet fragments (AO B3.3), preoperative lunate subsidence distance, and length of volar cortex available for fixation were significant predictors for loss of reduction; the latter was significant in multivariate analysis. Plate position and number of screws used to stabilize the lunate facet were not statistically different between groups. CONCLUSIONS Patients with AO B3.3 fractures with less than 15 mm of lunate facet available for fixation, or greater than 5 mm of initial lunate subsidence, are at risk for failure even if a volar plate is properly placed. In these cases, we recommend additional fixation to maintain reduction of the small volar lunate facet fracture fragments in the form of plate extensions, pins, wires, suture, wire forms, or mini screws. TYPE OF STUDY/LEVEL OF EVIDENCE Therapeutic III.

Biomechanical testing of pin configurations in supracondylar humeral fractures: the effect of medial column comminution.

Objectives: We measured biomechanical stability in simulated supracondylar humeral fractures fixed with each of 6 pin configurations, 2 with associated medial comminution, and developed a technique for reproducible pin placement and divergence. Methods: A transverse supracondylar osteotomy was performed on 36 biomechanical humerus models. Of these, 24 (4 groups of 6 specimens each) were fixed with pins in 1 of 4 lateral entry configurations. The remaining 12 (2 groups of 6 specimens each) had a 30-degree medial wedge removed from the distal humerus and were fixed with 1 of 2 configurations. Half of each group was tested under axial rotation and the other half under varus bending. The distal humerus was divided into 4 equal regions from lateral to medial (1–4). Lateral entry pins were inserted through regions 1–3, whereas the medial pin was inserted through region 4. Results: Without comminution, 3 widely spaced, divergent lateral entry pins resulted in higher torsional stiffness (0.36 Nm/degree) than 2 pins in adjacent regions (P < 0.055), but similar to 2 pins in nonadjacent regions (P = 0.57). Three lateral entry pins had higher bending stiffness (79.6 N/mm) than 2 pins, which ranged from 46.7 N/mm (P < 0.01) to 62.5 N/mm (P = 0.21). With comminution, adding a third medial entry pin increased torsional stiffness (0.13–0.24 Nm/degree, P < 0.01) and increased bending stiffness (38.7–44.7 N/mm, P = 0.10). Conclusions: For fractures without medial column comminution, fixation using 3 lateral entry pins may provide the greatest combination of torsional and bending stiffness. With medial comminution, adding a third medial pin increased torsional stiffness (P < 0.01) and bending stiffness (P = 0.10).

Gain in Spinal Height from Surgical Correction of Idiopathic Scoliosis

BACKGROUND A relationship between spinal distraction and correction of the curvature of scoliosis has long been recognized. While attempts have been made to define the height that is lost with progression of scoliosis, much less information is available to define the height that is gained as a result of surgical correction of the curve and to quantify additional spinal growth after spine fusion. METHODS The present study included 116 patients (mean age, 14.8 years) who underwent spinal instrumentation and fusion for the treatment of idiopathic scoliosis. The study group included ninety-one female patients and twenty-five male patients; all Lenke curve types were represented. The Cobb angle and the T1-L5 spinal height were evaluated on preoperative, postoperative, and two-year follow-up radiographs. Kyphosis, lordosis, and T1-L5 spinal length were measured on lateral radiographs. The Scoliosis Research Society (SRS) questionnaire was completed prior to surgery and at each visit. Multivariate linear regression defined the relationship between spinal height gain, Cobb angle correction, and other variables as well as final spinal height. RESULTS The mean spinal height gain due to surgery was 27.1 mm (median, 25.1 mm; interquartile range, 14.5 to 37.9 mm; range, -3.8 to 66.1 mm). The magnitude of curve correction (mean, 38.2°; range, 6° to 67°), the number of vertebral levels fused (mean, 9.9; range, three to sixteen), and the preoperative stature (standing height) of the patient were all significant predictors (p < 0.01) of spinal height gain (R2 = 0.8508 for multivariate model). The mean changes in kyphosis and lordosis were small and were not significant predictors. An additional 4.6 mm of mean spinal height was gained at the time of the two-year follow-up; this increase was significantly related to young age, male sex, shorter fusions, and a Risser stage of ≤2 at the time of surgery (p < 0.01 for all in multivariate analysis). The SRS-30 scores improved significantly (p < 0.0001), independent of spinal height gain. CONCLUSIONS Patients undergoing surgical correction of idiopathic scoliosis gain substantial height related to the magnitude of surgical correction, the number of levels fused, and preoperative stature. Continued spine growth by two years after surgery is associated with shorter fusions, skeletal immaturity, young age, and male sex. Height gain is a quantifiable outcome of the surgical correction of scoliosis.

Type II supracondylar humerus fractures: can some be treated nonoperatively?

Background: The range of injury severity that can be seen within the category of type II supracondylar humerus fractures (SCHFs) raises the question whether some could be treated nonoperatively. However, the clinical difficulty in using this approach lies in determining which type II SCHFs can be managed successfully without a surgical intervention. Methods: We reviewed clinical and radiographic information on 259 pediatric type II SCHFs that were enrolled in a prospective registry of elbow fractures. The characteristics of the patients who were treated without surgery were compared with those of patients who were treated surgically. Treatment outcomes, as assessed by the final clinical and radiographic alignment, range of motion of the elbow, and complications, were compared between the groups to define clinical and radiographic features that related to success or failure of nonoperative management. Results: During the course of treatment, 39 fractures were found to have unsatisfactory alignment with nonoperative management and were taken for surgery. Ultimately, 150 fractures (57.9%) were treated nonoperatively, and 109 fractures (42.1%) were treated surgically. At final follow-up, outcome measures of change in carrying angle, range of motion, and complications did not show clinically significant differences between treatment groups. Fractures without rotational deformity or coronal angulation and with a shaft-condylar angle of >15 degrees were more likely to be associated with successful nonsurgical treatment. A scoring system was developed using these features to stratify the severity of the injury. Patients with isolated extension deformity, but none of the other features, were more likely to complete successful nonoperative management. Conclusions: This study suggests that some of the less severe pediatric type II SCHFs can be successfully treated without surgery if close follow-up is achieved. Fractures with initial rotational deformity, coronal malalignment, and significant extension of the distal fragment are likely to fail a nonoperative approach. An algorithm using the initial radiographic characteristics can aid in distinguishing groups.

Detection of pars injury by SPECT in patients younger than age 10 with low back pain.

Background: Evaluation of extension-based low back pain in young athletes with suspected pars injury may include a referral for skeletal single photon emission computed tomography (SPECT). However, the diagnostic yield of this technique in children with low back pain before the age of 10 years remains uncertain. We examined a series of consecutive SPECT scans to address this question. Materials and Methods: A retrospective review of department databases revealed 107 consecutive skeletal Tc-99m MDP SPECT scans performed between January 1, 2007 and December 31, 2009 in children less than 10 years of age. Of these, 72 studies were performed for a referral diagnosis of back pain. There were 43 girls (44 studies) and 28 boys (28 studies). The mean age was 7.2 years (range, 1.9 to 9.9 y). All SPECT scans were reviewed and positive findings documented. In addition, all available anatomic imaging, imaging reports (computed tomography, magnetic resonance, and x-ray) and clinical notes were reviewed, and results were compared with those of SPECT studies. Results: Of the 72 SPECT studies, 35 (49%) identified a focal area in the spine of abnormal increased uptake, with 17 in the region of the pars interarticularis. With additional imaging, 1 case was demonstrated not to be a pars injury (computed tomography showed a transverse process fracture) and 2 patients with negative SPECT scans were shown to have pars injuries that SPECT scan had not detected, for a total of 18 pars injuries (25%) in this cohort. Reported participation in gymnastics or football was related to pars injury (odds ratio 4.3, P=0.04). Conclusions: Pars injury was found in 25% of children referred for SPECT scan with back pain below 10 years of age. SPECT scan was highly sensitive for this injury as well as in identifying other potential sites of pathology, and should be considered in the workup of persistent low back pain in young children. Level of Evidence: Level II, diagnostic study.

Bone mineral density and functional measures in patients with arthrogryposis.

Background Patients with arthrogryposis often report decreased ambulation and physical activity. Given that skeletal mineralisation is responsive to force, we identified the need to characterize bone mineral density and functional measures in this population, and conducted a cross-sectional study to establish a reference for future investigations. Methods Thirty consecutive patients aged 5 to 18 years with either the diagnosis of amyoplasia or nonsyndromic arthrogryposis with predominantly lower extremity involvement underwent bone densitometry testing, and lumbar spine Z-scores were calculated against an age and sex-matched control population as is customary in children. Pediatric outcomes data collection instrument (PODCI) and functional independence measure for Children (WeeFIM) assessment forms were completed. Mean Z-scores, PODCI, and WeeFIM scores were calculated. Statistical analysis was performed to compare lumbar spine Z-scores between patients divided by ambulatory status and to correlate WeeFIM and PODCI scores. Results Mean lumbar spine Z-score was −0.47, with 73% of Z-scores being <0. Mean Z-score among nonambulators or home ambulators was −1.05, as compared to a mean Z-score among limited and unlimited community ambulators of −0.14 with a trend toward significance (P=0.10), and a dose-response relationship between higher bone density and increasing ambulatory function. Mean WeeFIM self-care and mobility quotient scores were 67.5/100 and 70.9/100, respectively. PODCI normative scores were decreased for upper extremity (10/50), transfer/basic mobility (−17/50), and sports/physical function (4/50), but normal in pain/comfort (45/50) and happiness (49/50). A linear relationship was noted between functional ambulation level and WeeFIM quotient and PODCI normative scores. There was good correlation between WeeFIM mobility and PODCI transfers and basic mobility standardised scores (R=0.86). Conclusions This is the first study to measure bone mineral density in children with arthrogryposis, and shows it to be lower than age-matched means, especially in patients with limited ambulation. Objective measures of functional ability (WeeFIM and PODCI) are decreased and demonstrate a linear relationship with ambulatory level. Further investigation is needed to quantify long-term effects of entering adulthood with below average bone mineral density in patients with arthrogryposis. Level of Evidence Level II.

Maximal Force Generated by Magnetically Controlled Growing Rods Decreases with Rod Lengthening

The use of magnetically controlled growing rods (MCGR) has the potential to decrease the morbidity associated with repeated surgeries, yet, strength of the lengthening mechanism as it lengthens may have an impact on the length gained with each lengthening.We evaluated the maximal force generated by MCGR at 3 different lengthened positions and found an average decrease of 0.089 pounds per mm of additional length. This decrease may result in diminished spine length gained with each subsequent MCGR lengthening.

Early Outcomes of Vein Grafting for Reconstruction of Brachial Arterial Injuries in Children

PURPOSE We postulated that, with microsurgical technique, vascular reconstruction with interpositional vein grafts in the pediatric population is safe and results in sustained vascular patency and excellent midterm outcomes. METHODS Twenty children with brachial artery injuries were treated with interpositional vein grafting at a tertiary pediatric hospital from 1995 to 2013. Medical records were evaluated for demographic, clinical, and radiographic data. Ten patients were available for longer-term follow-up. Pain at rest, pain with exercise, and temperature intolerance were assessed with visual analog scale (VAS) (range, 0-5). Functional outcomes were assessed using the Pediatric Outcomes Data Collection Instrument (PODCI) and Disabilities of the Arm, Shoulder, and Hand (DASH) questionnaires. Graft patency and flow were characterized via duplex sonography. Peak flow velocity and resistive index (RI) were compared with the contralateral extremity. Median patient age at the time of injury was 7.75 years (range, 4.6-11.5 years) and median follow-up was 1.75 years (range, 0.3-6.3 years). RESULTS All patients had perfused hands with palpable radial pulses at follow-up. There were no clinically meaningful differences in motion, sensibility, or strength between affected and unaffected limbs. Mean VAS scores for pain at rest, pain with exercise, and temperature intolerance were 0.4, 0.4, and 0.6, respectively. Mean global PODCI and DASH scores were 98.0 and 5.1, respectively. Nine of 10 patients had patent arteries with normal flow patterns. In the patient with graft occlusion, there was collateralization around the elbow with normal reconstitution of the distal vessels. Mean peak flow velocity proximal and distal to the graft were 77.7 cm/s and 66.5 cm/s, respectively. Mean RI of the graft were 0.84 and 0.77, respectively. CONCLUSIONS Brachial artery reconstruction using interpositional vein graft and microsurgical technique is safe and effective and results in excellent functional outcomes in children. TYPE OF STUDY/LEVEL OF EVIDENCE Therapeutic V.