Abstract
Traumatic osteonecrosis of the femoral head in adolescents has a poor prognosis due to collapse and degenerative change. We hypothesised that early bisphosphonate treatment to reduce osteoclast activity could allow revascularisation and repair with maintenance of joint congruity.
Nine patients with documented osteonecrosis were treated with intermittent intravenous pamidronate (Aredia, Novartis) commencing within a mean 1 month of diagnosis (range, 5 to 91days). The dosing protocol has evolved over two years with the current dose being 9 mg/kg/year for 18 months. Mean follow up is 19.8 months (range, 13 to 30 months) with all patients followed for more than one year. There were 6 patients, who presented after unstable SCFE. Of these the index procedure had failed in three, requiring multiple early operations. The other three patients had sustained an inter-trochanteric fracture with a pelvic fracture, a traumatic hip dislocation and a femoral neck fracture respectively.
Eight of the patients are painfree. Six have been instructed to fully weight bear, while two can partial weight bear and one is non-weight bearing. Seven of 9 patients do not show significant resorption of the femoral heads at the most recent follow up. Of the two patients with significant resorption, one patient began to resorb after his medication was ceased, so it was recommenced. He has subsequently undergone a realignment procedure. The other patient had resorption of a section of the femoral head, which had not re-vascularised by 18 months, and this was elevated and bone grafted. These two hips are considered functional in the short term as they are currently pain free, but their deformity is expected to bring about early osteoarthritis in adult life.
This early experience lays the foundation for prospective clinical trials of bisphosphonate therapy in adolescents with osteonecrosis. It appears that bisphosphonate treatment protocols for adolescents will need to be prolonged. Our current practice is for a duration of around 18 months with normalisation of uptake on bone scan as the end point for therapy.
Theses abstracts were prepared by Professor Roger Lemaire. Correspondence should be addressed to EFORT Central Office, Freihofstrasse 22, CH-8700 Küsnacht, Switzerland.