Proximal femoral resection (PFR) is a proven
pain-relieving procedure for the management of patients with severe cerebral
palsy and a painful displaced hip. Previous authors have recommended
post-operative traction or immobilisation to prevent a recurrence
of pain due to proximal migration of the femoral stump. We present
a series of 79 PFRs in 63 patients, age 14.7 years (10 to 26; 35
male, 28 female), none of whom had post-operative traction or immobilisation. A total of 71 hips (89.6%) were reported to be pain free or to
have mild pain following surgery. Four children underwent further
resection for persistent pain; of these, three had successful resolution
of pain and one had no benefit. A total of 16 hips (20.2%) showed
radiographic evidence of heterotopic ossification, all of which
had formed within one year of surgery. Four patients had a wound
infection, one of which needed debridement; all recovered fully.
A total of 59 patients (94%) reported improvements in seating and
hygiene. The results are as good as or better than the historical results
of using traction or immobilisation. We recommend that following
PFR, children can be managed without traction or immobilisation,
and can be discharged earlier and with fewer complications. However,
care should be taken with severely dystonic patients, in whom more
extensive femoral resection should be considered in combination
with management of the increased tone. Cite this article:
Most children with spastic hemiplegia have high levels of function and independence but fixed deformities and gait abnormalities are common. The classification proposed by Winters et al is widely used to interpret hemiplegic gait patterns and plan intervention. However, this classification is based on sagittal kinematics and fails to consider important abnormalities in the transverse plane. Using three-dimensional gait analysis, we studied the incidence of transverse-plane deformity and gait abnormality in 17 children with group IV hemiplegia according to Winters et al before and after multilevel orthopaedic surgery. We found that internal rotation of the hip and pelvic retraction were consistent abnormalities of gait in group-IV hemiplegia. A programme of multilevel surgery resulted in predictable improvement in gait and posture, including pelvic retraction. In group IV hemiplegia pelvic retraction appeared in part to be a compensating mechanism to control foot progression in the presence of medial femoral torsion. Correction of this torsion can improve gait symmetry and function.
