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General Orthopaedics

OSTEOSYNTHESIS WITH DYNAMIC CONDYLAR SCREW USING INDIRECT REDUCTION AND MINIMALLY INVASIVE TECHNIQUE IN COMMINUTED SUBTROCHANTERIC FEMORAL FRACTURES

Australian Orthopaedic Association Limited (AOA)



Abstract

Introduction

Osteosynthesis with open reduction techniques in comminuted subtrochanteric femoral fractures can further devitalise fragments and lead to increased rate of non-union, infection, and implant failure. Therefore, these fractures require indirect reduction techniques that do not further damage the vascular supply or soft tissue attachments of the fragments. Dynamic condylar screw (DCS) using indirect reduction and minimally invasive technique may be a good alternative to avoid these complications in such fractures.

Material & methods

Forty-three patients with comminuted subtrochanteric fractures underwent indirect reduction and biological internal fixation with DCS. Mean age was 43.9 (range 25–65) years. There were six Seinsheimer type III, 15 type IV and 22 type V fractures.

Results

All fractures united without bone grafting at average union time of 16.16 weeks (range, 13–22) weeks. There were no cases of non-union or implant failure at mean follow-up of 25.13 months. We observed technical difficulties in six patients such as: inaccurate placement of guide pin in two patients, difficulty in sliding the plate due to obesity in one patient, difficulty in gliding barrel plate over condylar screw in one patient and technical failure in a further two patients. Seven patients had mean limb length discrepancy of 1.48 cm (range, 1–2). Mean Harris hip score was 88.2 (range 80–90) points. Two patients had coxa vara and persistent limp.

Discussion

Stripping of the soft tissues to the lateral cortex is kept to a minimum in indirect reduction. The vitality of the medial fragments is not further compromised since they are not exposed. Viable bone rapidly unites by callus formation.

Conclusions

Osteosynthesis of comminuted subtrochanteric fractures is desirable using indirect reduction and minimally invasive technique. Dynamic condylar screw can be used based on these principles; however, proper planning and execution of the technique is required to achieve good functional outcome and to avoid complications.