RESUMO
Patients with cerebral palsy often develop rotational deformities of the lower extremities. These deformities may be caused by abnormal muscle tone, soft-tissue contractures, or bony malalignment. When rotational deformity persists after correction of the soft-tissue components, bony-realignment procedures are warranted to improve gait in ambulatory patients. We performed a retrospective review of 10 ambulatory children with cerebral palsy and tibial torsion who underwent 13 distal tibial and fibular derotation osteotomies. Preoperative and postoperative three-dimensional gait analysis were used to determine the effect of distal tibial and fibular derotation osteotomy on tibial rotation, foot-progression angle, gait velocity, and moments about the ankle. Mean tibial rotation and foot-progression angle were significantly improved by the procedure. Gait velocity improved but not significantly. Moment data demonstrated a trend toward normal. This study demonstrates that the derotational distal tibial and fibular osteotomy stabilized with percutaneous crossed Kirschner wires is a safe, reliable, and effective procedure for correcting rotational deformities of the leg in patients with cerebral palsy.
Assuntos
Paralisia Cerebral/fisiopatologia , Paralisia Cerebral/cirurgia , Fíbula/cirurgia , Osteotomia , Tíbia/cirurgia , Adolescente , Adulto , Fios Ortopédicos , Criança , Pré-Escolar , Feminino , Marcha , Humanos , Cinética , Masculino , Estudos Retrospectivos , Rotação , Tíbia/patologia , Anormalidade Torcional , Resultado do TratamentoRESUMO
Despite a tendency for rotational abnormalities of the lower leg in children to improve spontaneously over time, some fail to correct and require corrective derotation osteotomy. In this retrospective study, we report the technique and results of the distal transverse tibial and fibular derotation osteotomy with Kirschner-wire fixation performed in 63 limbs of children with cerebral palsy, clubfoot, idiopathic tibial torsion, and myelomeningocele, as well as other less common conditions. There were no significant infections, neurologic complications, delayed or nonunions, or compartment syndromes as a result of the osteotomy. There were three (4.8%) complications, including late fracture (one), cross-union (one), and distal physeal closure (one). We conclude that transverse, same-level, distal tibial and fibular osteotomy fixated with crossed Kirschner wires is a safe, efficient, and effective surgical approach to the treatment of children with tibial torsion in a variety of clinical conditions.
Assuntos
Doenças do Desenvolvimento Ósseo/cirurgia , Fíbula/cirurgia , Osteotomia/métodos , Tíbia/cirurgia , Adolescente , Paralisia Cerebral/complicações , Criança , Pré-Escolar , Pé Torto Equinovaro/cirurgia , Humanos , Lactente , Meningomielocele/complicações , Complicações Pós-Operatórias , Estudos Retrospectivos , Rotação , Anormalidade Torcional , Resultado do TratamentoRESUMO
The purpose of this study was to describe the dynamic, in vivo, three-dimensional tracking pattern of the patella for one normal male subject. Intracortical pins were inserted into the patella, tibia, and femur. The subject performed seated and squatting knee flexion/extension, and maximum voluntary quadriceps contractions. In addition, the vastus medialis oblique was subjected to maximal electrical stimulation. Motions of the markers attached to the intracortical pins were analyzed using an automated video system. Patellar and tibial motions were determined relative to a femoral reference system. While the tibia flexed 50 degrees from full extension (seated condition), the patella flexed 30.3 degrees, tilted laterally 10.3 degrees, and shifted laterally 8.6 mm. In general, these results show qualitative agreement with the data collected from cadaveric specimens [van Kampen and Huiskes, J. orthop. Res. 8, 372-382 (1990)]. The differences present may reflect different passive constraints to patellar motions, and different relative loading of the individual quadriceps components, in our study compared to the cadaveric study. Only small differences were found between patellar motions in the seated and squatting conditions. Differences in patellar displacements produced by (1) maximal electrical stimulation of the vastus medialis oblique, and (2) maximum voluntary quadriceps contraction, at 30 degrees knee flexion and full extension, may reflect the dominant influence of passive constraints, and the vastus lateralis, on normal patellar motions. Further in vivo study of patellar tracking seems warranted to evaluate surgical and conservative interventions for patellofemoral disorders.