Abstract
Introduction
A recent retrospective study of distal femoral physeal fractures (DFPFs) suggested closed manipulation alone has a high incidence of re-displacement, malunion or physeal bar formation. The paper concluded that all displaced DFPFs require internal fixation, and breaching the physis with k-wires is safe. We agree that hyper-extension/flexion injuries need stabilisation using k-wires but, in our experience, purely valgus/varus deformities can be successfully managed by manipulation under anaesthesia (MUA) and a moulded cylinder cast.
Method
We prospectively observed DFPFs presenting over 12 months. Departmental policy is to treat varus/valgus deformities by MUA, with cylinder casting providing 3 point fixation. Hyper-extension/flexion injuries are reduced on a traction table. 2mm cross k-wiring is performed, leaving the wires under the skin, and a cylinder plaster applied. A post-operative CT scanogram accurately assesses limb alignment. Patients are mobilised immediately using crutches and weight-bearing as pain allows. Plaster and k-wires are removed after 4–5 weeks. Scanogram is then repeated, and again at 6 months and 1 year.
Results
17 cases presented over 1 year. 16 were male, with a median age of 15. 13 were injured playing soccer, 1 in a motor vehicle accident and 3 by other mechanisms. Internal fixation supplemented reduction in 13 cases. 1 patient required repeat MUA and k-wiring when post-operative scanogram identified significant varus mal-alignment. In all cases, cylinder casting was unproblematic and range of movement quickly recovered after plaster/wire removal. To date none have developed significant malunion or growth arrest requiring intervention.
Conclusion
DFPFs are uncommon, almost always occurring in teenage males. Accurate reduction and stabilisation is vital to restore and maintain a correct mechanical axis. MUA and cylinder casting is adequate in appropriate cases. Early imaging with CT scanogram can detect mal-alignment. Growth arrest is unusual and unlikely to be significant in most patients, who are approaching skeletal maturity.
NO DISCLOSURES
