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FIBULAR FIXATION AS AN ADJUVANT TO TIBIAL IM NAILING IN THE TREATMENT OF COMBINED DISTAL THIRD TIBIA AND FIBULA FRACTURES: A BIOMECHANICAL INVESTIGATION



Abstract

In our cadaver study plating the fibula in addition to nailing the tibia decreased the mean rotation across the tibial osteotomy site compared to nailing the tibia alone. Although this is statistically significant (p=0.0034) it may not be clinically relevant as the mean values for ROM were 19.10 and 17.96 degrees respectively. Plating the fibula resulted in no statistically significant difference in the mean vertical displacement, angulation or neutral zone.

Therefore, we may conclude that plating the fibula in a combined distal third tibia and fibula fracture does not enhance the stability of tibial IM nailing.

The purpose of this study was to determine if combined distal third tibia and fibula fractures are more stable when fibular fixation is added to the standard tibial IM rodding.

In combined distal third tibia and fibula fractures, plating the fibula does not enhance stability of intramedullary tibial nailing.

No additional incision or soft tissue stripping is required for plating of the fractured fibula.

The average range of motion in rotation was 19.1° for tibial and fibular fixation combined, and 18.0 ° for tibial fixation alone with a difference of 1.1°, which was clinically significant ( p=0.0034). The mean differences in vertical displacement, angulation, and neutral zone were not statistically significant.

Five matched pairs of embalmed cadaveric lower limbs were dissected and stripped of soft tissue. Each tibia received a 9mm solid titanium nail that was locked proximally and distally. Fibular fixation consisted of a seven- hole LCDCP. A 1.5 cm section of tibia and a 1.0 cm section of fibula were removed. Testing was accomplished with an MTS machine. Vertical displacement was tested with an axial load to 500 N, rotation was tested with an internal and external torque of 5 Nm, and angulation was calculated from the vertical displacement data. All displacement data was measured across the osteotomy site.

The mean range of motion in rotation was the only statistically significant finding. However, considering the average range of motion with and without fibular plating of 17.96° and 19.10° respectively, this finding is likely not clinically relevant.

Funding: Tibial nails, bolts, fibular plates and screws provided by Synthes (Paoli, PA, USA)

Correspondence should be addressed to Cynthia Vezina, Communications Manager, COA, 4150-360 Ste. Catherine St. West, Westmount, QC H3Z 2Y5, Canada