Allison Gilmore

A randomized prospective study of music therapy for reducing anxiety during cast room procedures.

Background: Cast room procedures, such as cast application and removal, pin removal, and suture removal can cause significant anxiety in young children. The use of music therapy in the cast room to decrease anxiety has not been previously reported. Methods: We performed a randomized, prospective study of soft lullaby music compared with no music in 69 children 10 years or younger undergoing cast room procedures. Heart rates (beats per minute) were recorded in the waiting room and cast room using a pulse oximeter. Results: A total of 28 children were randomized to music and 41 children to no music. The mean rise in heart rate between the waiting room and entering the cast room was −2.7 beats/min in the music group and 4.7 beats/min in the no music group (P = 0.001). The mean difference in heart rate between the waiting room and during the procedure was 15.3 beats/min in the music group and 22.5 beats/min in the no music group (P = 0.05). There were 7 patients in the no music group with heart rate increases of greater than 40 beats/min. No patient in the music group had an increase of this magnitude. Conclusions: Playing soft music in the cast room is a simple and inexpensive option for decreasing anxiety in young children during cast room procedures. Level of Evidence: Randomized Clinical Trial, Level II.

Clearing the Pediatric Cervical Spine Following Injury

Abstract Injury to the pediatric cervical spine is uncommon; however, a missed or delayed diagnosis can lead to disastrous consequences. Thus, following trauma, clearance of the pediatric cervical spine is important. Problematic issues include child compliance with examination, the complex anatomy of the pediatric cervical spine, lack of agreement on definitive imaging modalities, and the coordination of multiple medical specialties. Expediting clearance of the pediatric cervical spine requires an organized, multidisciplinary approach. In addition to systematic procedures within the emergency department, preventing missed and delayed diagnoses of cervical spine injury can be facilitated by applying a clear methodology for reviewing radiographs in conjunction with the childs clinical examination. This algorithm considers the adequacy of the images, alignment of the bony and soft‐tissue elements, assessment of the cervical intervals, and the presence of abnormal angulation. Together with standard treatment, this protocol facilitates effective and expeditious clearance of the cervical spine.

A three-dimensional study of calcaneonavicular tarsal coalitions

The authors studied 37 presumed calcaneonavicular tarsal coalitions from the Hamann-Todd Osteological Collection at the Cleveland Museum of Natural History. The anatomy of the coalitions and the associated subtalar and transverse tarsal joints was quite variable. The coalitions in 8 specimens completely spared the anterior facet of the calcaneus and in 7 specimens it was partially replaced by the navicular portion of the coalition, whereas in 22 specimens the anterior calcaneal facet was completely replaced by the navicular portion of the coalition. The authors suggest that the pathoanatomy of calcaneonavicular coalitions is not uniform and may involve the subtalar and transverse tarsal joints. This may have clinical relevance and contribute to the unsatisfactory results in feet undergoing coalition resection and soft tissue interposition.

The Relationship of the Medial Patellofemoral Ligament Attachment to the Distal Femoral Physis

Background: No published study has ever described the relationship of the medial patellofemoral ligament (MPFL) attachment to the distal femoral physis in skeletally immature cadaveric specimens. As such, there continues to be much confusion about this relationship, which is important when considering MPFL reconstruction in the skeletally immature patient. Hypothesis: The MPFL footprint is distal to the medial border of the distal femoral physis. Study Design: Descriptive laboratory study. Methods: Sixteen skeletally immature cadaveric specimens were used for this study. The average age of the specimens was 12 years (range, 10-15 years). The MPFL femoral attachment, adductor tubercle, and medial epicondyle were identified in all specimens, and the topography of the distal femoral physis was carefully described. Measurements were then taken of the distance from the medial aspect of the distal femoral physis to the MPFL femoral attachment and the horizontal distance from the MPFL femoral attachment to the point where a femoral tunnel would intersect the undulating femoral physis. All measurements were made with digital calipers. Results: The MPFL attachment was distal to the medial aspect of the femoral physis in all specimens. The MPFL attachment was an average of 8.5 mm distal to the medial aspect of the distal femoral physis. In the coronal plane, the undulating physis was 10.5 mm medial to the MPFL attachment. In all specimens, the undulations of the medial physis were concave directly posterior and lateral to the MPFL attachment and convex anterior to the MPFL attachment. Both the adductor tubercle and the medial epicondyle were also distal to the femoral physis in all specimens. Conclusion: This study has confirmed the findings of others, who have shown that the MPFL femoral attachment lies distal to the medial aspect of the distal femoral physis. In addition, the study findings show that the MPFL femoral attachment is in very close proximity to the distal femoral physis. Clinical Relevance: To facilitate anatomic MPFL reconstruction, Schottle et al described a radiographic method to identify the MPFL femoral attachment on lateral radiographs in skeletally mature patients. Because of the complex physeal anatomy, much confusion exists concerning whether an MPFL femoral tunnel can be placed safely in the pediatric patient. The findings of this study suggest that anatomic MPFL reconstruction may be accomplished with a tunnel angled distally and anteriorly to avoid injury to the distal femoral physis.

Bizarre parosteal osteochondromatous proliferation of bone (BPOP): An unusual foot mass in a child

This report describes an unusual case of bizarre parosteal osteochondromatous proliferation of bone (BPOP) which developed in the foot of an eight year-old child. Also described as Noras lesion, BPOP is a rare benign bone tumor found most commonly in the hands and feet with a radiographic appearance occasionally confused with malignancy. Resembling osteochondromas at first glance, these lesions have a distinct radiographic and histologic appearance that permits differentiation from other benign lesions or low-grade malignant tumors. Treatment of BPOP consists of simple excision, although there is high rate of recurrence. Despite this high recurrence rate, there have been no reported metastases and local excision is still recommended.

An anatomic study of the distal femoral epiphysis.

Background: The anatomy of the undulating distal femoral physis may be relevant to growth disturbance after physeal fractures and screw fixation about the physis. The surface anatomy of this physis has not been well described. Methods: We performed an anatomic study on 26 cadaveric distal femoral epiphyses in specimens 3 to 18 years of age. High-resolution 3-dimensional surface scans were obtained and analyzed to determine the heights, approximate surface areas, and locations of the major undulations. Results: Gross examination revealed lateral and anteromedial peripheral notches at the metaphyseal-epiphyseal junction, which deepen with advancing skeletal maturity. Within the epiphysis, there are 3 major undulations: a central ridge, lateral ridge, and medial peak, with mean heights of 5.5 mm (range, 2.9 to 9.8 mm), 2.5 mm (1.0 to 5.7 mm), and 2.9 mm (0.9 to 4.7 mm), respectively. The normalized height and surface area of each undulation decreased with increasing age, most dramatically in the central ridge. With respect to a line connecting the medial and lateral aspects of the physis, we found that the central peak passes more superior with younger age, and tends to be more posteriorly located. The lowest point of the physis is located either anteromedial or posterolateral. Conclusions: The central ridge, lateral ridge, and medial peak are the 3 major undulations in the distal femoral physis. The central ridge has the greatest height and most dramatic decrease in relative size with increasing age, suggesting structural importance. This anatomic data can guide metaphyseal and epiphyseal screw fixation. Clinical Relevance: This study provides quantitative data on the topographic anatomy of the distal femoral physis, which can guide screw placement about the physis. These data may help identify fractures patterns with a greater risk of growth disturbance and key radiographic landmarks for guiding fracture reduction.

An Anatomic Study of the Epiphyseal Tubercle and Its Importance in the Pathogenesis of Slipped Capital Femoral Epiphysis

BACKGROUND It has been proposed that the epiphyseal tubercle on the inferior surface of the capital femoral epiphysis may be responsible for the clinical distinction between a stable and an unstable slipped capital femoral epiphysis (SCFE). The anatomy of the tubercle and its relationship to the lateral epiphyseal vessels have not previously been rigorously defined. METHODS Twenty-two cadaveric capital femoral epiphyses from donors who had been three to seventeen years of age were analyzed and then digitized with use of a high-resolution laser scanner. The height, location, and approximate surface area of the epiphyseal tubercle were measured and were normalized to the size of the entire capital femoral epiphysis. RESULTS In all specimens except that from the youngest donor, the foramina for the lateral epiphyseal vessels were visible and were located directly superior to the epiphyseal tubercle. The height of the epiphyseal tubercle was 4.4 ± 1.1 mm. When normalized to the overall size of the capital femoral epiphysis, the relative height (r = 0.71) and relative area (r = 0.56) of the epiphyseal tubercle decreased with increasing age. The epiphyseal tubercle was consistently located in the posterosuperior quadrant, with its position being more posterior and less superior in specimens from younger donors. CONCLUSIONS The epiphyseal tubercle appears to be a major stabilizer, or keystone, of the capital femoral epiphysis and the lateral epiphyseal vessels. Its relative decrease in height and surface area with increasing age may help explain the susceptibility of individuals to SCFE in adolescence: in a stable SCFE, the physis rotates on the tubercle; however, in an unstable SCFE, the tubercle dislodges, leading to more substantial displacement of the capital femoral epiphysis and the lateral epiphyseal vessels, risking osteonecrosis.

Outcomes of Nonoperative Pediatric Medial Humeral Epicondyle Fractures With and Without Associated Elbow Dislocation.

Background: Medial epicondyle fractures may occur in isolation or with associated elbow dislocation. In the absence of open fracture or fragment incarceration, nonoperative management with immobilization has been shown to result in generally successfully outcomes comparable with those reported after surgical fixation. However, no comparative investigation has assessed outcomes after nonoperative treatment based on the presence or absence of elbow dislocation. Methods: A systematic review was conducted investigating all studies in the literature reporting nonoperative outcomes for isolated medial epicondyle fractures and fracture-dislocations. Databases included in this review were PubMed, Biosis Preview, SPORTDiscus, PEDro, and EMBASE. We sought to evaluate results related to the incidence and outcomes of bony nonunion and the incidence of elbow stiffness, pain, ulnar neuropathy, cubitus valgus deformity, and laxity between isolated fractures of the medial epicondyle and fracture-dislocations. Results: Review of the literature yielded 7 studied meeting appropriate inclusion and exclusion criteria, comprising 81 total patients (n=42 patients with fracture-dislocations, n=39 patients with isolated fracture). Bony nonunion occurred in 69% (n=29) of patients with fracture-dislocation versus 49% (n=19) with isolated fractures (P=0.11); however, both groups had minimal clinical or functional disabilities at final follow-up. Decreased elbow flexion and extension range of motion were significantly more frequent after fracture-dislocation than isolated fractures [43% (n=18) vs. 15% (n=6), respectively, P=0.01], while patients rarely demonstrated pain, ulnar neuropathy, or deformity in the presence or absence of dislocation. Conclusions: In the absence of absolute surgical indication, nonoperative management of isolated medical epicondyle fractures with or without concomitant elbow dislocation seems to be successful with few long-term complications leading to functional disability. However, increased rates of nonunion, elbow stiffness, and elbow laxity may occur with fracture-dislocations, and merit further study with validated functional outcome scores. Further comparative studies are necessary to determine the true indications and outcomes in nonoperatively managed medial epicondyle fractures. Level of Evidence: Level II—systematic review of level-II or level-I studies with inconsistent results.

Conservative Management of Minimally Displaced (≤2 mm) Fractures of the Lateral Humeral Condyle in Pediatric Patients: A Systematic Review.

Background: Fractures to the lateral humeral condyle are common in the pediatric population and can lead to complications related to displacement of the fracture fragment. The ideal treatment for minimally displaced fractures (measuring ⩽2 mm) is controversial. Methods: A systematic review was performed identifying and evaluating studies related to displacement of lateral humeral condyle fractures in pediatric patients. Databases included in this review were PubMed, Biosis Preview, SPORTDiscus, PEDro, and EMBASE. We investigated the rate of subsequent displacement for minimally displaced fractures following immobilization, the time span in which fracture displacement occurs, and the complications related to displacement despite immobilization. Results: Our review of the literature found 6 studies that matched the search criteria. The risk of subsequent displacement in minimally displaced fractures initially treated with immobilization was 14.9% with fracture displacement typically occurring within the first week following injury. Malunion, nonunion, and loss of motion were the most commonly identified complications following subsequent displacement. Conclusions: For minimally displaced fractures of the lateral humeral condyle, appropriate diagnosis of fracture stability and fracture displacement with close radiographic follow-up 1 week following injury dictate the success of conservative management. Level of Evidence: Level II—systematic review of level-II or level-I studies with inconsistent results.

A cadaveric investigation into the demographic and bony alignment properties associated with osteoarthritis of the patellofemoral joint

BACKGROUND Patellofemoral joint osteoarthritis is common, although circumstances dictating its evolution and pathogenesis remain unclear. Advances in surgical technique have improved the ability to modify long-bone alignment in the coronal, sagittal, and axial planes. However, to our knowledge, there is no significant long-term data available in regard to the relationship between anatomic alignment parameters most amenable to surgical modification and patellofemoral joint osteoarthritis. METHODS Five-hundred and seventy-one cadaveric skeletons were obtained from the Hamann-Todd osteological collection. Mechanical lateral distal femoral angle, medial proximal tibial angle, tibial slope, femoral version, tibial torsion, the position of the tibial tubercle relative to the width of the tibial plateau, trochlear depth, and patellar size were measured using validated techniques. A previously published grading system for patellofemoral joint arthritis was used to quantify macroscopic signs of degenerative joint disease. RESULTS Increasing age (standardized beta 0.532, p<0.001), female gender (standardized beta 0.201, p=0.002), and decreasing mechanical lateral distal femoral angle (standardized beta -0.128, p=0.025) were independent correlates of increased patellofemoral joint osteoarthritis. A relatively more laterally positioned tibial tubercle trended towards predicting patellofemoral joint osteoarthritis (standardized beta 0.080, p=0.089). CONCLUSIONS These findings confirm that patellofemoral joint osteoarthritis is strongly associated with increasing age and female gender. Valgus alignment of the distal femur, a relatively more lateral location of the tibial tubercle, and a shallower trochlear grove appear to have modest effects on the development of patellofemoral joint osteoarthritis.