Abstract
PurposeThe study was to determine the effect of locking hole inserts and their insertion torque on the fatigue life of a large fragment Locking Compression Plate (LCP) under bending forces.MethodsFatigue strength of the LCP was examined using cyclic three-point bend testing at 80% yield strength of the construct. Locking hole inserts were used in 2, 4, and 6-hole of a 12-hole plate to simulate three different working lengths. Within each working length, plates were tested without locking inserts serving as the control group. In the experimental groups, inserts were tightened to manufacturer recommendations (4 Nm) and using overtorque (8 Nm).ResultsSignificantly fewer cycles to failure were observed in control groups versus the locking hole insert groups for all working lengths (2-hole: 4 Nm p = 0.003, 8 Nm p = 0.003; 4-hole: 4 Nm p = 0.02, 8 Nm p < 0.001; 6-hole: 4 Nm p = 0.004, 8 Nm p < 0.001). There was a statistically significant increase in fatigue strength when using overtorque in the 4-hole (p = 0.04) and 6-hole (p = 0.01) defect groups. This was not shown in the 2-hole defect group (p = 0.99).ConclusionsBy placing locking inserts in the empty locking regions of Combi holes along the working length, the number of cycles to failure was increased. Tightening inserts to twice the recommended insertion torque further increased cycles to failure in longer working length models. A longer fatigue life has the potential to decease the incidence of plate failure especially in the setting of delayed union due to poor intrinsic healing capacity, fractures in the geriatric population, osteoporosis and periprosthetic fractures.
Highlights
The locking compression plate (LCP; Synthes, Paoli, PA) is an implant which allows use of both conventional screw fixation and locking screw fixation via Combi holes in the plate that have regions for both screw types within the same hole
By placing locking inserts in the empty locking regions of Combi holes along the working length, the number of cycles to failure was increased
A longer fatigue life has the potential to decease the incidence of plate failure especially in the setting of delayed union due to poor intrinsic healing capacity, fractures in the geriatric population, osteoporosis and periprosthetic fractures
Summary
The locking compression plate (LCP; Synthes, Paoli, PA) is an implant which allows use of both conventional screw fixation and locking screw fixation via Combi holes in the plate that have regions for both screw types within the same hole. The stability and biomechanical properties of large fragment locking plate constructs have been studied and well described. Known as threaded screw head inserts, have been evaluated to determine whether or not filling the empty locking holes changes the properties of the plate once all screws have been placed. Bellapianta et al studied the effects of locking screw heads on the biomechanical properties of locking plates. Using one third tubular plates from two different manufacturers, they found the fatigue life as well as stiffness could be increased by including locking inserts in the constructs tested [3]. As the locking insert in the Synthes LCP only fills only part of the Combi hole, the effects are potentially different from previously tested constructs [7]
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