Michael C. Ain

Surgical treatment of femoral fractures in obese children: does excessive body weight increase the rate of complications?

BACKGROUND In light of the increasing rate of obesity among children in the United States, this study examines whether obese children have an increased rate of complications following surgical treatment of femoral shaft fractures. METHODS A retrospective review of the charts of children between six and fourteen years of age who were treated operatively for a femoral shaft fracture was performed, and complications were identified. RESULTS One hundred and three children (104 fractures), with a mean age at the time of injury of 9.3 years, were identified. Fifty-nine fractures were treated with external fixation, and forty-five were treated with an intramedullary rod. Six children (6%) were considered obese, with a weight for age at the 95th percentile or higher. An additional four children were extremely heavy at the 90th to the 94th percentile of weight for age. Three complications occurred in the six obese children, and one complication occurred in the four extremely heavy children. Eleven (12%) of the remaining ninety-three children had a complication. When examined according to treatment groups, the complication rate for heavier children was higher for both the group managed with an intramedullary rod and the group that had external fixation (p = 0.004). CONCLUSIONS Obese children have an increased rate of postoperative complications compared with children who are not obese. Therefore, parents of obese children should be warned that such children may have a potentially increased risk of complications associated with surgical management of a femoral fracture.

Achondroplasia: manifestations and treatment.

&NA; Achondroplasia, the most common skeletal dysplasia, is caused by a mutation of fibroblast growth factor receptor‐3. This disorder is characterized by frontal bossing, midface hypoplasia, otolaryngeal system dysfunction, and rhizomelic short stature. Orthopaedic manifestations are exhibited in the spine and the extremities. In the infant with achondroplasia, foramen magnum stenosis may result in brainstem compression with apnea and sudden death. Thoracolumbar kyphosis is seen in most infants, but typically it resolves when the child begins to walk. Anatomic anomalies of the vertebral column place the patient at risk for spinal stenosis as early as the first decade and especially during adulthood. Radial head dislocation is one manifestation in the upper extremity. Lower extremity alignment often is characterized by genu varum, which may require correction osteotomy. Medical and surgical options are available to increase patient height, but indications are controversial, and treatment often consumes a large portion of the childs life.

Spinal Arthrodesis With Instrumentation for Thoracolumbar Kyphosis in Pediatric Achondroplasia

Study Design. Retrospective radiograph and chart review. Objectives. To assess the safety, efficacy, and complications after posterior spinal arthrodesis with instrumentation for thoracolumbar kyphosis in the pediatric achondroplast. Summary of Background Data. The conventional approach of anterior and posterior arthrodesis has achieved minimal correction, avoided instrumentation, and had a high risk of neurologic deterioration. To the current authors’ knowledge, there are only two reports of successful instrumentation with pedicle screw fixation for kyphosis in pediatric achondroplasts; the outcome of such procedures remains largely unknown. Methods. The current authors evaluated the results of posterior spinal arthrodeses with instrumentation performed between 1998 and 2001 on 12 consecutive patients (mean age, 12 years). Indications for arthrodesis were concomitant laminectomy for neurologic symptoms or progressive deformity. Arthrodesis methods included anterior and posterior arthrodesis (5 patients) and posterior arthrodesis only (7 patients). Intraoperative somatosensory-evoked potentials, pedicle screw stimulation, and/or a wake-up test were used to confirm neurologic status in all patients. Results. Successful fusion was obtained in all patients. No intraoperative or postoperative neurologic deterioration was encountered. Mean improvement in kyphotic deformity was 50%. Complications included three instrumentation fractures (2 patients) and one dural leak. Parents rated outcome as excellent (4), good (6), and fair (2). No patients have subsequently experienced deformity progression. Conclusions. Spinal arthrodesis with vertebral body and/or pedicle screw instrumentation was a reliable technique for treating thoracolumbar kyphosis in achondroplasia and did not precipitate any of the neuromonitoring difficulties or neurologic deficits that have been reported in previous studies.

Comparison of dynamic versus static external fixation for pediatric femur fractures.

External fixation of pediatric femoral shaft fractures has the advantages of minimal dissection and early weight bearing. However, it is associated with slow healing and potential for refracture. Some surgeons have proposed that axial dynamization may improve the speed and strength of callus formation. to test this hypothesis, we performed a randomized controlled trial using 53 femur fractures in 52 patients between 1995 and 1999. Patients were randomized to receive dynamic or static fixation. Average time until early callus formation was 23.2 days for dynamic fixation and 24.9 days for static fixation (P = 0.627). Average time until complete radiographic healing was 70.1 days for dynamic fixation and 63.1 days for static fixation (P = 0.370). Similarly, the differences in time to fixator removal and to full weight bearing did not reach statistical significance. The conclusion was that axial dynamization of external fixation for pediatric femur fractures has no significant effect on time to healing or frequency of complications.

Retrospective study of cervical arthrodesis in patients with various types of skeletal dysplasia.

Study Design. Retrospective prognostic study. Objective. To evaluate the safety and efficacy of cervical arthrodesis for cervical instability in patients with skeletal dysplasia. Summary of Background Data. Individuals with certain skeletal dysplasias have a high incidence of cervical instability, which can lead to compression of the spinal cord and subsequent severe spinal cord symptoms, progressive neurologic decline, quadriplegia, and death. Materials and Methods. The charts of 25 patients with skeletal dysplasia (spondyloepiphyseal dysplasia, spondyloepimetaphyseal dysplasia, pseudoachondroplasia, Morquio, or Kniest) who had undergone cervical arthrodesis to treat instability were reviewed for evidence of fusion, neurologic improvement, and complications. Results. Of the 25 patients, 23 (92%) achieved a solid bony fusion, and 5 (20%) experienced surgery-related complications. One of the two patients who did not achieve fusion had a stable pseudarthrosis without neurologic complications, and additional surgical intervention was unnecessary; the second patient is contemplating revision surgery. Of 16 patients with preoperative neurologic manifestations, 14 (88%) experienced improvement. Conclusion. Cervical arthrodesis can be a safe and effective treatment for patients with skeletal dysplasia and cervical instability, despite the inherent complications associated with a dysplastic skeleton. The procedure can preserve and/or improve neurologic function while minimizing the risk of neurologic injury from spinal cord compression.

Spinal fusion for kyphosis in achondroplasia.

Persistent thoracolumbar kyphosis in patients with achondroplasia is typically prevented with sitting modifications and bracing. When the kyphosis persists and progresses despite bracing, spinal fusion is indicated to prevent further progression and neurologic complications. Previous reports have suggested that instrumentation in such patients carries a high risk of neurologic injury. The purpose of this study was to evaluate the safety and efficacy of a two-stage procedure to control progressive kyphosis in the patient with achondroplasia. The authors treated four such patients (4–8 years old) surgically. The first stage involved an anterior spinal fusion with instrumentation and a posterior spinal fusion, and the second stage involved an additional posterior fusion. There were no neurologic complications. Correction ranged from 23.0% to 31.25%. All patients achieved a solid fusion. These results suggest that when nonoperative treatments fail, this procedure for thoracolumbar kyphosis in the achondroplastic patient can be done safely and effectively.

Total hip arthroplasty in skeletal dysplasias: patient selection, preoperative planning, and operative techniques☆

Patients with substantial skeletal dysplasia and hip arthritis are poor candidates for noncustom total hip arthroplasty (THA) because of hip size and deformity. To determine the efficacy of THA via modified prostheses and surgical techniques in this population, the authors analyzed 9 consecutive THAs in 7 small-stature adults (mean height, 118.6 cm; mean weight, 47.5 kg). The Student t-test was used to test for significant (P < 0.05) differences in outcome variables. Seven hips received custom femoral components based on imaging studies. Five hips required extensive soft-tissue releases secondary to severe contractures. Follow-up radiographs (range, 24-56 months) showed adequate position of all prostheses and no loosening. Follow-up mean pain and function scores (Harris Hip Score and WOMAC Arthritis Index) showed significant improvement from preoperative levels.

Postlaminectomy Kyphosis in the Skeletally Immature Achondroplast

Study Design. Retrospective review. Objectives. To determine the risk of postlaminectomy thoracolumbar kyphosis in skeletally immature achondroplasts and evaluate the need for concurrent fusion at multilevel decompression. Summary of Background Data. Spinal stenosis is a relatively common complication of achondroplasia. Although most achondroplasts do not develop symptomatic spinal stenosis until the third or fourth decades, some patients become symptomatic before skeletal maturity. While postlaminectomy kyphosis typically does not occur in the adult achondroplast, it is not known if it occurs in the skeletally immature achondroplast. Methods. The charts and radiographs of 10 consecutive skeletally immature achondroplasts that underwent surgical treatment for symptomatic spinal stenosis during a 10-year period were retrospectively reviewed. The average age of the 6 male and 4 female patients at surgery was 9.2 years (range 6–16). All patients had preoperative lateral radiographs. Decompression consisted of multilevel (5–8) thoracolumbar laminectomies. More than 50% of each medial facet was preserved bilaterally to maintain spinal stability. Results. Postlaminectomy thoracolumbar kyphoses developed in all 10 patients (100%). The postlaminectomy kyphoses ranged from 78° to 135° (mean 94°). All patients underwent spinal fusions with instrumentation, performed from 10 months to 2.6 years after the decompressions, to stabilize the kyphoses. Conclusions. Skeletally immature achondroplasts are at high risk for developing postlaminectomy thoracolumbar kyphoses. Therefore, concurrent spinal fusion is indicated in skeletally immature achondroplasts who undergo thoracolumbar laminectomies of at least 5 levels.

Patterns of Pediatric Supracondylar Humerus Fractures

Purpose: The Wilkins-modified Gartland classification of pediatric supracondylar humerus fractures does not consider coronal or sagittal obliquity. The purposes of our study were (1) to identify and describe fracture characteristics with unique properties and (2) to propose a fracture classification system that can be reproduced reliably. Methods: We retrospectively studied 203 consecutive displaced pediatric extension-type supracondylar humerus fractures treated operatively from January 1998 to January 2003. Fracture characteristics (eg, coronal and sagittal obliquity, postoperative alignment), type of surgical treatment, outcome, and complications were assessed and analyzed statistically with Student t test and a receiver operating characteristic curve. Significance was defined as P < 0.05. We incorporated significant cutoff values for fracture obliquity into our classification scheme and tested the classifications interobserver and intraobserver reliability. Results: We identified 4 coronal (typical transverse, medial oblique, lateral oblique, and high fractures) and 2 sagittal (low sagittal and high sagittal) subtypes with significantly different characteristics and outcome. Compared with fractures with coronal obliquity of less than 10 degrees, fractures with coronal obliquity of 10 degrees or greater were associated with significantly more comminution and rotational malunion. Compared with fractures with sagittal obliquity of less than 20 degrees, fractures with sagittal obliquity of 20 degrees or greater were associated with a significantly higher incidence of additional injuries and were more likely to result in extension malunion. Analysis of the interobserver and intraobserver reliability for our system identified correlation coefficients ranging from 0.772 to 0.907 and 0.860 to 0.899, respectively. Conclusions: Because pediatric extension-type supracondylar humerus fractures vary significantly in terms of characteristics, identification of sagittal oblique and coronal oblique angles may have an important role in surgical decision making and may impact outcomes. Level of Evidence: Level 3 (retrospective study).

Spica casting for pediatric femoral fractures: a prospective, randomized controlled study of single-leg versus double-leg spica casts.

BACKGROUND At many centers, double-leg spica casting is the treatment of choice for diaphyseal femoral fractures in children two to six years old. We hypothesized that such patients can be effectively treated with single-leg spica casting and that such treatment would result in easier care and better patient function during treatment. METHODS In a prospective, randomized controlled study, fifty-two patients two to six years old with a diaphyseal femoral fracture were randomly assigned to be treated immediately (after consent was obtained) with a single-leg (twenty-four patients) or double-leg (twenty-eight patients) spica cast. Serial radiographs were evaluated for maintenance of fracture reduction with respect to limb length, varus/valgus angulation, and procurvatum/recurvatum angulation. After cast removal, the performance version of the Activities Scale for Kids questionnaire and a custom-written survey were administered to the parents so that they could evaluate the ease of care and function of the children during treatment. Means were compared between treatment groups with use of Student t tests. P values of <0.05 were considered significant. RESULTS All limbs healed in satisfactory alignment. The children treated with a single-leg spica cast were more likely to fit into car seats (p < 0.05) and fit more comfortably into chairs (p < 0.05). Caregivers of patients treated with a single-leg cast took less time off work (p < 0.05). There were no major complications. CONCLUSIONS Treatment of pediatric femoral fractures with a single-leg spica cast is effective and safe, and postfracture patient care is facilitated. LEVEL OF EVIDENCE Therapeutic Level I. See Instructions for Authors for a complete description of levels of evidence.