Containment

Containment refers to repositioning of the anterolateral part of the femoral epiphysis within the confines of the acetabulum to protect the femoral head from being subjected to deforming forces. Containment can be done by casting, bracing, femoral, or innominate osteotomy.

Nonsurgical containment

Abduction cast and brace are commonly prescribed for nonsurgical containment. Various types of orthosis (abduction splint) are available. Rich and Schoenecker recently showed excellent results with an A-frame orthosis with hip range of motion. The disadvantages of the brace are that it requires excellent patient compliance and must be worn for a longer period of time. An abduction orthosis is preferred for children less than 5 years who present with extrusion. Abduction orthosis and cast treatment are tedious and psychologically difficult for the older child (ie, more than 5 years old). The author does not use any brace or splint as a definitive treatment for children older than 5 years of age.

Surgical containment

Surgical methods provide prolonged containment to maintain normal femoral head sphericity during revascularization. The age of onset, the presence of epiphyseal extrusion, the extent of the femur head involvement, and the hip range of motion are key variables to be considered before doing containment.

Children with age of onset less than 8 years have a better prognosis than children with age of onset more than 8 years. The prognosis is very good with the age of onset less than 5 years. Most children do not require surgical containment. The author considers surgical containment only in those children with extrusion during the course of the disease and noncomplaince with the brace.

For children with age of onset between 5 and 8 years, extrusion is the prime factor for deciding surgical containment. A close follow-up is necessary to monitor extrusion in these children. Surgical containment is indicated for children with more than half of the femoral head involved and the presence of extrusion during the course of the disease. For children with less than 50% head involvement without extrusion, nonoperative treatment with non-weight-bearing is preferred. Regular close follow-up of these children is required until the stage of reossification to detect early extrusion.

The natural history of children with the age of onset more than 8 years is not favorable. Surgical containment is more effective than no treatment or brace treatment in older children. Surgical containment is preferred, irrespective of the presence of extrusion, because extrusion is inevitable in these children. The traditional containment treatment cannot be considered for adolescent Perthes disease (age of onset more than 12 years), because the disease behaves entirely differently from the early onset of the disease.

Normal range of motion of the hip joint is a prerequisite for surgical containment. An abduction cast for 6 weeks is preferred before considering surgical containment in children who fail to regain the normal range of motion after a few days of traction.

Type of osteotomy

No consensus exists about the type of surgical containment (femoral and or innominate osteotomy). Proximal femur varus, varus derotation, varus extension, and varus extension derotation are various proximal femoral osteotomies, whereas Salter, triple, and shelf acetabuloplasty are various pelvic osteotomies. There is no consensus on the type of femoral or pelvic osteotomy to be considered. The results are essentially the same with both femoral and pelvic containment. However, normal range of motion of the hip joint and absence of hinge abduction are essential prerequisites for surgical containment.

The authors prefer subtrochantric femur varus derotation osteotomy for surgical containment. Proximal femur osteotomy is performed with 20° varus, open wedge osteotomy, trochanteric epiphyseodesis, and 20° external rotation. No external immobilization is used following surgery. The implant is kept up until complete healing of the disease. There have been no nonunion or hardware failures.

There are several advantages of femur varus osteotomy: it is technically easy to perform; it is as effective as a pelvic osteotomy; and it does not increase intra-articular pressure. The distinct advantage of this osteotomy is that the duration of the disease can be shortened and it can bypass the stage of fragmentation in one-third of children if it is performed in the stage of avascular necrosis ( Fig. 1 ).

AP and frog lateral radiographs of an 8-year-old boy who presented in the stage of avascular necrosis ( A, B ), varus derotation osteotomy was performed ( C ). Sequential radiographs at 3 months ( D, E ), 6 months ( F, G ), 12 months ( H, I ), and 18 months ( J, K ) following surgery clearly showed that the stage of fragmentation was bypassed and the disease healed in 20 months ( L ). Radiographs of the same child at skeletal maturity showed a spherical femoral head, Stulberg class I, sphericity deviation score 0 ( M, N ).

There are several disadvantages of femur varus osteotomy, such as trochanteric prominence, persistent abductor lurch, shortening, lack of remodeling of varus, worsening of coxa brevis, and the necessity of second surgery for implant removal. However, open-wedge osteotomy with trochanteric epiphyseodesis has shown minimal shortening and negligible abductor lurch in skeletally mature patients.

The pelvic osteotomy is indicated in older children with total head involvement. There are several advantages of pelvic osteotomy, including absence of shortening of the affected limb and no change in the abductor lever arm. No major second surgery is required for implant removal. However, limitations of the pelvic osteotomy are that there is no evidence to suggest that innominate osteotomy alters the natural healing of the disease and overcoverage with triple osteotomy can be associated with pincer impingement.

The use of a combined salter and proximal femoral varus osteotomies has been described for severe disease in older patients, in children more than 10 years of age with severe subluxation, and in those children where either single femur or innominate osteotomy is insufficient to provide adequate containment.

Hinge abduction

Hinge abduction is defined as an impingement of the lateral part of the femoral head on the lateral margin of the acetabulum ( Fig. 2 ). It can be suspected clinically by sudden deterioration of movements of the hip joint (mainly abduction), out-toeing, or in-toeing gait as a compensatory mechanism. AP radiographs typically show widening of medial joint space in abduction. Dynamic arthrogram can add to the diagnosis of reducible or irreducible hinge abduction; it also helps to decide the best congruent position of the hip joint and the diagnosis of anterior and lateral impingement.

AP ( A ) and abduction ( B ) radiographs of healed Perthes show typical “hinge abduction”. Center of rotation is shifted to the margin of the acetabulum; medial joint space widens medially, and there is increased uncovering of the femoral head.

Reducible hinge abduction

If the femoral head is centered within the acetabulum without pressing on the lateral margin of the acetabulum, it is considered reducible hinge abduction. Containment surgery can be performed at this stage; however, the anticipated outcome of the surgery is more modest than the anticipated outcome of the early stage surgery. The odds ratio of obtaining a spherical head at healing is 16.8 times less than if surgery is performed early in the course of the disease. Lateral shelf acetabuloplasty can prevent the subluxation of the femoral head and stimulate lateral acetabular growth.

Irreducible hinge abduction

If the femoral head does not center within the acetabulum and the lateral part of the femoral head imposes pressure on the lateral margin of the acetabulum, it is considered irreducible hinge abduction. Various surgeries are described for these noncontainable hips, such as proximal femur valgus osteotomy, articulated hip distraction, shelf and Chiari acetabuloplasty, and femoral head reshaping.

A proximal femur valgus osteotomy is commonly indicated for irreducible hinge abduction to restore joint congruity and to reduce femoroacetabular impingement. It is indicated if the femoral head and acetabulum become congruent when the joint is adducted, but incongruent in a neutral or abducted position. Valgus osteotomy has several advantages: it repositions the abnormal hinge segment away from the acetabulum margin; it increases the weight-bearing surface under acetabulum; it corrects the neck shaft angle; and it increases the abductor muscle length.

The degree of valgus should be decided by the maximum joint congruent position in adduction. Valgus osteotomy may also be combined with additional sagittal components. Valgus extension osteotomy is effective when hinge abduction is combined with flexion deformity of the hip with soft anterior hinge that can be contained within the acetabular socket. When the anterior hump is relatively large and noncontainable, extension combination is not indicated because the hump may cause anterior impingement. The rotation component can also be added with valgus, if the hip shows better congruence in internal or external rotation with adduction. If there is an increased subluxation and the hip remains unstable after a valgus osteotomy, a concomitant acetabular procedure (innominate, shelf, or Chiari osteotomy) is necessary to obtain adequate coverage.

Valgus osteotomy is contraindicated in stiff hips. Articulated hip distraction is useful in children who present late with stiff hips and nonreducible hinge abduction. Articulated hip distraction can be combined with soft tissue release. However, the outcome following valgus osteotomy or articulated hip distraction is modest compared with preventable surgery performed in the earlier stage of the disease.