key: cord-0029512-rxyt3mr1 authors: Kulkarni, Shrihari L; Mannual, Sunil; Daragad, Manjunath; Patil, Naveenkumar; Ernest, Daniel title: Management of complex femur fractures in children: A report of Three Cases date: 2021-10-03 journal: J Orthop Case Rep DOI: 10.13107/jocr.2021.v11.i10.2456 sha: 4eae66fc649c894fe7a496a9fb042fd276ab7a92 doc_id: 29512 cord_uid: rxyt3mr1 INTRODUCTION: Complex femur fractures are defined as combined fractures of shaft and proximal of or the distal femur. Restoration of anatomical alignment is the primary goal of the management of these fractures. In this report, we describe the management of complex femur shaft fractures in three pediatric patients. CASE REPORT: This report includes three patients. The first patient was a 10-year-boy with comminuted proximal femur shaft fracture extending into the subtrochanteric area, managed with minimally invasive sub-muscular plating. The second patient was a 12-year-boy with comminuted femur shaft extending into subtrochanteric area, treated with combined retrograde and anterograde Titanium Elastic Nail System. A 12-year-old boy with femur shaft with intertrochanteric fracture managed with K-wire fixation for intertrochanteric fracture and plating with dynamic compression plate for femur shaft was our third patient. All patients had excellent radiological and functional outcome. CONCLUSION: Complex femur shaft fractures in children are very rare and challenging injuries. With proper pre-operative planning and use of appropriate implants excellent outcomes can be obtained. inability to bear weight on the affected limb. On examination, the limb was externally rotated and shortened with diffuse tenderness in the proximal femur. Radiographs showed a comminuted proximal femur shaft fracture extending into the sub-trochanteric area with a vertical slit in the distal fragment (OTA 32-D5.2) [4] . After informed consent from the parents, under spinal anesthesia, with a patient in the left lateral position, minimally invasive submuscular bridge plating was done with 11 holed, 4.5 mm locking plate. The plate was bent proximally to match the contour of the trochanteric flare. The limb was immobilized post-operatively for 3 weeks. Mobilization of the hip and knee were started at 3 weeks while keeping the child non-weight bearing. At 9 weeks, fracture showed union at which time full weight-bearing mobilization was started. Patient was followed up regularly and implant removal was done at 9 months. Six weeks after removal of the implant, the child returned back to his pre-fracture level of activity, and presently at 2-year follow-up* he continues to be free of any symptoms or complications related to the femur fracture. A 12-year-old presented with pain in the left thigh and inability to bear weight following fall from a bicycle. Physical examination revealed a diffuse swelling in the thigh with ecchymosis on the lateral aspect of the proximal thigh. The limb appeared externally rotated and deformed. X-rays revealed comminuted left femur shaft fracture extending into the subtrochanteric area (OTA 32-D5.2) [4] . After obtaining informed consent from the parents the patient was taken up for surgery. With the patient in the supine position, closed reduction and fixation with Titanium Elastic Nail System (TENS) was performed. Two 3.5mm nails were passed retrogradely with entry just above the physeal line on medial and lateral supracondylar aspect. One 3 mm nail was passed anterogradely with entry from the tip of the greater trochanter to achieve a better stability considering the fracture configuration. Post-operatively limb was immobilized with a high groin slab for 6 weeks. Mobilization of the hip and knee was started at 6 weeks while keeping the patient non-weight bearing. At 12 weeks, fracture showed signs of satisfactory union at which partial weight-bearing mobilization was started progressing to full weight bearing by 4 months. The TENS nails were removed at 1 year and presently at 3-year follow-up* he continues to be free of any symptoms or complications related to the femur fracture. A 12-year-old boy who was hit by truck presented to us with pain, swelling in the right thigh, and inability to move the hip and knee. On examination, the right thigh was diffusely swollen with tenderness in the hip and distal third of the thigh. The limb was externally rotated and shortened. Patient also had head injury which was managed conservatively. X-rays showed right The patient was placed on the fracture table and the intertrochanteric fracture was addressed first. Closed reduction was achieved with traction and internal rotation. The fracture was fixed using three 2.5 mm k-wires, inserted from the lateral cortex into the neck of the femur. The fracture reduction and the position of the K-wires was confirmed by the C-arm. K-wires were connected by L-shaped connecting rod with JESS clamps. TENS would have been ideal for fixation of the fracture of the shaft of the femur, but in this case, due to the presence of K-wires in the proximal femur, fixation with TENS would not have been feasible. Open reduction and internal fixation with 9 holed 4.5 mm broad dynamic compression plate (DCP) was done for the femur shaft fracture. Postoperatively, the limb was immobilized with a high groin slab, and patient was followed up regularly. The intertrochanteric fracture united at 8 weeks at which time the K-wires were removed and bedside mobilization of the hip and knee was started. At 12 weeks follow-up, the femoral shaft fracture also united allowing partial weight-bearing which was progressed to full weight-bearing over the next month. The DCP in the femur was removed at 1 year and at 3-year followup* he continues to be free of any symptoms or complications related to the femur fracture. *All latest follow-ups were done on phone due to ongoing Covid-19 pandemic. femur shaft fracture in the distal one-third along with Delbet type IV fracture of the right hip [5] . Informed consent was obtained from parents and the patient was taken up for surgical fixation. According to OTA, pediatric shaft femur fractures are classified as category 32-D (Table 1) . They are further sub-classified as simple i.e., 32-D 4.1 (complete transverse with an obliquity of 30° or less) and 32-D 5.1 (complete oblique or spiral more than 30) and complex i.e., 32-D 4.2 (multi-fragmentary transverse 30 or less) and 32-D 5.2 (multi-fragmentary oblique or spiral more than 30) fractures [4] . Complex femur fractures were classified by Juskovic et al. into three types (Tables 1 and 3 ). Type I: Combined fractures of the shaft and proximal femur, Type II: Segmental femur fractures, and Type III: Combined fractures of the shaft and distal femur [7] . Femur shaft fractures are the most common fractures requiring hospitalization in children. The management of these fractures mainly depends on the age of the child. Weight of the child, fracture configuration, associated injuries/polytrauma, experience of the treating surgeon, and the cost of the treatment are other factors influencing the treatment [6] . Surgical management is the mainstay in the management of the complex femur fractures. These are very unstable fractures occurring due to high-energy trauma. Fractures around the hip in children are divided into four types as described by Delbet (Table. 2). Type I: Trans-epiphyseal separation (<10%). Subtypes are IA (without dislocation) and IB (with dislocation). Type II: Transcervical fracture. This is the most common type of pediatric hip fracture (40-50%). Type III: Cervico-trochanteric fracture (25-35%). Type IV: Intertrochanteric fracture. This fracture between the greater and lesser trochanters accounts for 6-15% of all pediatric hip fractures and has the best outcome [5] . There is no universal classification available for the pediatric shaft femur fractures. Usually, descriptive classification on the basis of fracture configuration, comminution, and open/closed is used [1] . Ipsilateral femoral neck with shaft fracture is a very rare injury pattern with an incidence of about 0.7%. The rate of missed diagnosis is about 11-33% in adults and its further higher in pediatric patients as the children may be unable to report hip pain and often have multiple injuries [8] . Early operative stabilization of both fractures is the most favored modality of the treatment. Anatomical fixation with separate implants and a longer period of immobilization provides the best result. For undisplaced or minimally displaced fracture of neck closed reduction and percutaneous fixation can be done followed by definitive stabilization of the shaft. Open reduction is advocated Femur shaft fractures extending to the subtrochanteric area pose challenges due to the muscle forces acting (Fig. 4) . The quadriceps and hamstring which span the proximal femur contribute to the femoral shortening. When the integrity of trochanters is maintained, the proximal fragment is externally rotated, flexed, and abducted due to pull by short external rotators, iliopsoas, and hip abductors, respectively. The hip adductors medialize the distal fragment of the shaft [10] . Closed reduction and fixation with elastic nails, minimally invasive submuscular plating, and open plate internal fixation are various surgical options for management. Fixation with TENS is more suitable in younger children with low body weight which has advantages of minimum blood loss and lower operating time. Loss of reduction mainly in length unstable fractures and requirement of prolonged immobilization are its important disadvantages. These disadvantages can be overcome by advancing the lateral nail into or just distal to the greater trochanter apophysis and advancing the medial nail into the femoral neck just short of the femoral physis. Anterograde nailing is preferred in length unstable fractures. Combination of retrograde and anterograde nailing was done in our case which add to the extra stability that has not been described in literature [11] . Older and obese children benefit from plate fixation. Open plating has disadvantages such as need for extensive soft tissue dissection, prolonged operating time, greater blood loss, and disruption of the periosteal blood supply increasing the risk of delayed union or non-union. Whereas, submuscular plating which functions as internal "external fixator" uses a minimally invasive technique. Fracture is reduced by indirect reduction techniques leading to minimum damage to the periosteal blood supply. Maximum biomechanical stability can be obtained longer plates and fewer screws which increases the working length of the plate. One of our patients with comminuted fracture extending into subtrochanteric was managed with this technique had excellent result [12, 13] . [14, 15] . Prospective studies with higher number of patients have been performed in adults, the same would be difficult in children as these are very uncommon injuries. Patients with complex femur shaft fractures require long-term follow-up to look for complications like limb length discrepancy, disruption of growth plate, angular or rotational deformities, muscle weakness, and re-fracture [16] . for the displaced fractures. Depending upon the age of the patient and the fracture type smooth pins, cannulated screws and pediatric hip screw can be various options for the fixation on the neck fractures. Rigid fixation of the shaft using plate and screws is preferred over the flexible nails as these nails may be obstructed by the implants in the neck [2, 9] . Our patient had Delbet Type IV fracture with a femur shaft at distal one-third, as it was minimally displaced closed reduction and fixation was done using smooth pins which were later connected to each other by L-rod for more stability and shaft was fixed rigidly with plate and screws. Complex femur fractures in children are rare injuries and are often difficult to treat. With proper pre-operative planning, following basics of fracture fixation, and use of appropriate implant for fracture fixation excellent functional results can be obtained. Long-term follow-up is a necessary in children as these fractures are susceptible for delayed complications. Pediatric complex femur shaft fractures are rare. Peritrochanteric fractures occurring along with femur shaft are often missed in the primary survey, as attention is directed to the shaft fracture and deformity. Thorough clinical and radiological assessment is required to avoid missing these fractures and the operating surgeon must have all kinds of implants options available for the optimal management of these fractures. 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