Nirav K. Pandya

Child abuse and orthopaedic injury patterns: analysis at a level I pediatric trauma center.

Background Child abuse is a serious threat to the physical and psychosocial well-being of the pediatric population. Musculoskeletal injuries are common manifestations of child abuse. There have been multiple studies that have attempted to identify the factors associated with, and the specific injury patterns seen with musculoskeletal trauma from child abuse, yet there have been no large studies that have used prospectively collected data and controlled comparisons. The purpose of our study was to describe the patterns of orthopaedic injury for child abuse cases detected in the large urban area that our institution serves, and to compare the injury profiles of these victims of child abuse to that of general (accidental) trauma patients seen in the emergency room and/or hospitalized during the same time period. Methods This study is a retrospective review of prospectively collected information from an urban level I pediatric trauma center. Five hundred cases of child abuse (age birth to 48 mo) were identified by membership in our institutions Suspected Child Abuse and Neglect database collected between 1998 and 2007. These cases were compared against 985 general trauma (accidental) control patients of the same age group from 2000 to 2003. Age, sex, and injury type were compared. Results Victims of child abuse were on average younger than accidental trauma patients in the cohort of patients under 48 months of age. There was no difference in sex distribution between child abuse and accidental trauma patients. When the entire cohort of patients under 48 months were examined after adjusting for age and sex, the odds of rib (14.4 times), tibia/fibula (6.3 times), radius/ulna (5.8 times), and clavicle fractures (4.4 times) were significantly higher in child abuse versus accidental trauma patients. When regrouping the data based on age, in patients younger than 18 months of age, the odds of rib (23.7 times), tibia/fibula (12.8 times), humerus (2.3 times), and femur fractures (1.8 times) were found to be significantly higher in the child abuse group. Yet, in the more than 18 months age group, the risk of humerus (3.4 times) and femur fractures (3.3 times) was actually higher in the accidental trauma group than in the child abuse group. Conclusions Patients who present to an urban level I pediatric trauma center and are victims of abuse are generally younger, and have an equal propensity to be male or female. It is important for the clinician to recognize that the age of the patient (younger or older than 18 mo and/or walking age) is an important determinant in identifying injury patterns suspicious for abuse. Patients below the age of 18 months who present with rib, tibia/fibula, humerus, or femur fractures are more likely to be victims of abuse than accidental trauma patients. Yet, when patients advance in age beyond 18 months, their presentation with long bone fractures (ie, femur and humerus) is more likely to be related to accidental trauma than child abuse. Level of Evidence level III, prognostic study.

Osteoarthritis of the knees increases the propensity to trip on an obstacle

Tripping on an object is the most frequent cause of falls. We examined the effects of painful osteoarthritis of the knee on obstacle avoidance success rates in older adults. Obstacle avoidance success rates, pain, body mass index, visual acuity, contrast sensitivity, depth perception, and single-leg stance duration were evaluated in 17 patients with painful osteoarthritis of the knees (age range, 59.6 ± 8.1 years) and 14 age-matched healthy control subjects (age range, 61.1 ± 10.0 years). The patients with osteoarthritis of the knees had a 37% lower obstacle avoidance success rate, a 54% lower single-leg stance duration, and a 24% greater body mass index than the control subjects. Age, visual acuity, contrast sensitivity, and depth perception were not different between the two groups. Obstacle avoidance success rates and single-leg stance durations decreased linearly as pain increased in the patients with osteoarthritis of the knees. Obstacle avoidance success rates also decreased linearly as single-leg stance duration decreased in the patients with osteoarthritis of the knees. Osteoarthritis of the knees reduced obstacle avoidance success rates, supporting epidemiologic studies that have found osteoarthritis to be a risk factor for falls. This study showed that pain associated with osteoarthritis of the knees increased the propensity to trip on an obstacle (the greater the pain the greater the propensity to trip and fall) and underscores the importance of treating pain associated with osteoarthritis.

Unexplained Fractures: Child Abuse or Bone Disease? A Systematic Review

BackgroundChild abuse and neglect (CAN) is a serious problem that has major implications for the welfare of the child involved. Unexplained fractures are of particular concern to the orthopaedic surgeon, who must often consider alternative diagnoses to CAN.Questions/purposesWe therefore (1) determined which bone diseases most commonly mimic CAN; (2) what types of osteogenesis imperfecta (OI) are most commonly confused with CAN and why; and (3) what specific findings in OI and bone disease render a mistaken diagnosis of CAN more likely.MethodsA systematic review of the literature was performed. We identified studies that compared cases of CAN with cases in which patients had bone disease that resulted in an unexplained fracture. We also included studies in which patients with fractures resulting from underlying bony pathology were misclassified as CAN and were subsequently reclassified as bone disease as a result of further investigation. Our search netted only five studies that directly compared and contrasted CAN with metabolic or genetic bone disease in the same study.ResultsThe published literature suggests OI is most frequently confused with CAN, although metaphyseal dysplasia, disorders of phosphate metabolism, and temporary brittle bone disease are also documented in the literature identified by our search. Difficulty in differentiating these bony diseases from CAN stems from ambiguity in the history and physical examination at the time of presentation.ConclusionsBone disease is a diagnosis of exclusion in the differential diagnosis of CAN.

Case Reports: Pediatric PCL Insufficiency from Tibial Insertion Osteochondral Avulsions

Posterior cruciate ligament (PCL) insertion-site osteochondral avulsions in children, particularly from the tibia, are not commonly seen by orthopaedic surgeons. Because of the rarity of these injuries, careful attention to the specific physical examination and imaging findings seen with these injuries is necessary so that the proper diagnosis can be made. Osteochondral avulsions of the PCL can be missed on plain radiographs in skeletally immature patients, and therefore magnetic resonance imaging is necessary for proper diagnosis. With this knowledge, clinicians can formulate treatment plans which can return their patients to activities while avoiding potential morbidity resulting from missed diagnoses or improper treatment. We report two rare cases of PCL insufficiency stemming from tibial insertion osteochondral avulsions. Both patients underwent subsequent open reduction and internal fixation of the avulsion using two different fixation methods (bioabsorbable anchors versus cannulated screw and washer) and have returned to full sporting activities.

Hip impingement in slipped capital femoral epiphysis: a changing perspective

BackgroundFemoroacetabular impingement (FAI) as a result of slipped capital femoral epiphysis (SCFE) has recently gained significant attention. Seen as an intermediate step toward the development of early osteoarthritis, symptomatic FAI develops in SCFE patients who have residual hip deformity characterized by relative posterior and medial displacement of the capital femoral epiphysis, leading to an anterolateral prominence of the metaphysis which abuts on the acetabular rim. This results in a decreased range of hip motion as well as progressive labral damage and articular cartilage injury, which cause symptoms of FAI. All degrees of slips from mild to severe can develop impingement.MethodsThe existing literature on the subject was thoroughly reviewed and all levels of studies that have made any meaningful changes to clinical practice were considered.ResultsBased on the literature review, current practice trends, and our own institutional practice pattern, all treatment options for SCFE in the impingement era have been presented with an open discussion regarding potential benefits and limitations.ConclusionsSeveral surgical options exist for the SCFE patient who develops FAI. These are largely determined by the degree of deformity present and severity of the initial slip. Extraarticular (intertrochanteric, base of the neck) as well as subcapital osteotomies can be utilized with a goal of restoring proximal femoral anatomy in order to minimize the effect of the anterolateral prominence in more severe deformities. Patients with milder deformities can undergo osteochondroplasty of the femoral head and neck to remove impinging structures via either an open or arthroscopic approach. Also, proximal femoral osteotomy and open head–neck recontouring can be combined. Finally, patients who develop pain very early after in situ pinning must also be examined for potential iatrogenic screw-head impingement as a source of their pain and decreased hip motion, in addition to abnormalities in the proximal femoral anatomy. There are many centers that are approaching acute unstable SCFE patients as well as the more displaced stable cases with open reduction techniques that seem to be demonstrating good mid-term results. The goal of treatment is to improve patient function, alleviate hip pain, and to delay or prevent the development of early degenerative changes in adolescents and young adults. Prospective multi-center studies will be necessary so as to determine what methods work best in treatment and delay the onset and progression of osteoarthritis.Level of evidenceV.

Immediate intramedullary flexible nailing of open pediatric tibial shaft fractures.

Background: Flexible nailing has become the preferred implant for pediatric patients with tibial shaft fractures that require operative fixation. Immediate definitive fracture fixation with flexible nails in patients with high-energy, open fractures has not been examined. The purpose of our study was to determine if immediate flexible nailing of open pediatric tibial shaft fractures is safe and efficacious from a bone healing, wound, and infectious standpoint. Methods: A retrospective review of 26 tibial shaft fractures consecutively treated with flexible nailing at our institution from 2003 to 2010 was performed. Age, mechanism of injury, associated injuries, presence of compartment syndrome, antibiotic administration, systemic insults, time to union, as well as bone healing (nonunion, delayed union, malunion, leg length discrepancy, growth arrest), wound, and infectious complications were collected. Comparisons were made between patients with open fractures and those with closed fractures. Results: We identified 14 patients with open fractures and a control group of 12 patients with closed injuries who underwent flexible nailing. Patients with open fractures were more likely to have polytraumatic injuries (71.0% vs. 25.0%, P=0.04). There was no difference (P=1.0) in the rates of compartment syndrome (open=14.0%, closed=17.0%) between the 2 groups. Systemic complications (pulmonary compromise and increased intracranial pressure) were noted in 2 patients who underwent immediate nailing of their open fractures; both of whom had closed head injuries. There was no difference (P=1.0) in the rates of wound/infectious complications between the open (7.0%) and closed (4.0%) fractures groups, with no cases of wound breakdown or osteomyelitis. There was an increased rate (P=0.02) of bone healing complications in the open fracture group (21.0% vs. 4.0%); all in patients with Gustilo type 2 or 3 injuries. All patients achieved radiographic union at final follow-up. Conclusions: Immediate flexible nailing of open pediatric tibial shaft fractures can be safely performed with minimal risk of wound or infectious complications. Clinicians should understand that prolonged bone healing (particularly in Gustilo type 2 or 3 injuries) should be expected in patients who undergo immediate flexible nailing of their open fractures. Open tibial shaft fractures are high-energy injuries, and should be seen as surrogate markers of polytrauma in the pediatric population. The risk of compartment syndrome is high regardless of whether a patient has a closed or open tibia fracture, and caution should be used in performing flexible nailing in patients who may have closed head injury due to a risk of systemic complications. Level of Evidence: Level III, therapeutic study, retrospective cohort.

Fixation Techniques for Split Anterior Tibialis Transfer in Spastic Equinovarus Feet

Equinovarus of the foot is the most common lower extremity deformity following traumatic brain injury. We evaluated outcomes of the split anterior tibialis tendon transfer (SPLATT) for correction of equinovarus in 47 patients with hemiplegic traumatic brain injury and specifically studied differences in outcomes with two tendon fixation techniques. Seventeen patients constituting Group I underwent fixation with one technique and 30 constituting Group II had another technique. Patients in both groups had appropriate procedures based on dynamic electromyography and gait analyses. Both groups were demographically comparable. All 47 feet were corrected to plantigrade position. Thirty-six of 47 patients became brace-free at final followup. There was a notable decrease in the use of ambulatory aids and ambulatory status improved in both groups. There were three fixation-related complications in Group I and none in Group II. Surgical correction of the spastic equinovarus with SPLATT, in the appropriate patient, with or without associated tendon procedures helps to achieve and maintain correction, improves the ambulatory status of the patient, and eliminates the need for bracing in as much as 77% of patients. We recommend the Group II construct owing to the considerably lower complication rate.Level of Evidence: Level III, therapeutic study. See the Guidelines for Authors for a complete description of levels of evidence.

Intramedullary nailing of pediatric femoral shaft fracture.

Abstract Intramedullary nail fixation of pediatric long bone fracture, particularly femoral shaft fracture, has revolutionized the care and outcome of these complex injuries. Nailing is associated with a high rate of union and a low rate of complications. Improved understanding of proximal femoral vascularity has led to changes in nail insertion methodology. Multiple fixation devices are available; selection is based on fracture type, patient age, skeletal maturity, and body mass index. A thorough knowledge of anatomy and biomechanics is required to achieve optimal results without negatively affecting skeletal development.

Advanced containment methods for the treatment of Perthes disease: Salter plus varus osteotomy and triple pelvic osteotomy.

&NA; The goal of intervention in Legg-Calvé-Perthes disease has been to prevent femoral head deformation by containing the head within the acetabulum, using it as a mold for guiding femoral head development. With appropriate proximal femoral morphology, premature arthritis can hopefully be avoided. Both nonsurgical and surgical methods of treatment have evolved over time, from abduction casts and braces to advanced surgical containment methods, which are now the mainstay of treatment. The purpose of this study is to briefly review the evolution of surgical treatment of Legg-Calvé-Perthes disease, and to concentrate on 2 advanced surgical containment methods: combined Salter innominate osteotomy with femoral varus osteotomy and triple pelvic osteotomy. Level of Evidence Level V.

Tibial Tubercle Fractures: Complications, Classification, and the Need for Intra-articular Assessment

Background: Adolescent tibial tubercle fractures are uncommon, complex, high-energy injuries. The use of lateral radiographs in isolation to diagnose and treat these injuries is the standard of practice. However, with a single 2-dimensional (2D) view, there may be a risk that the degree of injury can be underestimated. This study was performed to report on the outcomes of tibial tubercle fractures operatively treated, determine the utility of a single lateral x-ray to accurately document injury severity and pattern, delineate the role of advanced imaging and intraoperative arthroscopy/arthrotomy in injury treatment, and propose a new classification system of tibial tubercle fractures that accounts for the complex 3D nature of proximal tibial physeal closure, and recognizes the importance of intra-articular extension, providing guidance for intervention. Methods: A retrospective review of operatively treated tibial tubercle fractures at our institution from 2003 to 2010 was performed. Child age, weight, mechanism of injury, Ogden classification (x-ray), advanced imaging results [computed tomography (CT)/magnetic resonance imaging (MRI)] including intra-articular fracture patterns, surgical techniques, intraoperative articular findings, and postoperative complications were collected. In addition, we classified all of our patients into a new classification system (type A—tubercle youth, type B—physeal, type C—intra-articular, type D—tubercle teen) based on a combination of plain radiograph (anteroposterior and lateral), advanced imaging (CT/MRI), and intraoperative arthrotomy/arthroscopy findings. Results: We found 41 tibial tubercle fractures in 40 children (all of whom were male) with a mean age of 15.0±1.1 years, and mean weight of 80.3±23.4 kg. Injuries mostly occurred during jumping activities. At initial presentation, compartment syndrome or vascular compromise was seen in nearly 10% of patients, all of whom had type B—physeal injuries under our new classification system. Fifty percent of injuries were underestimated and/or not appreciated by lateral x-ray alone. In patients with intra-articular involvement, consistent 3D fracture patterns were seen on CT including anterior fragments (sagittal plane), lateral fragments (coronal plane), and anterolateral fragments (axial plane). Our new 4 part classification system was able to classify all fractures: type A (2 patients, mean age, 12.7±0.2 y), type B (13 patients, mean age, 14.8±0.7 y), type C (22 patients, mean age, 15.3±1.1 y), and type D (2 patients, mean age, 15.5±0.1 y). All fractures achieved radiographic union with 2 patients (type A—tubercle youth and type B—physeal) requiring additional procedures due to premature physeal closure. Conclusions: Tibial tubercle fractures represent high-energy injuries with potentially devastating complications such as compartment syndrome and/or vascular compromise. Intra-articular involvement is often missed with the use of plain x-ray and drastically underestimates injury severity. The use of preoperative CT scan or MRI should be utilized as adjunct to plain lateral radiograph. If intra-articular involvement is recognized preoperatively, arthroscopy or open arthrotomy should be utilized at the time of surgery. Our new classification system is rooted in the development of the proximal tibia, accounts for intra-articular involvement, and provides guidance for treatment. Level of Evidence: Level III—diagnostic study.