OBJECTIVE: The clinical uses of screws are increasing with broader applications in spinal disorders. When screws are inserted repeatedly to achieve optimal position, tips of screw pitch may become damaged during insertion even though there are significant differences in the moduli of elasticity between bone and titanium. The effect of repeated screw insertion on pullout resistance was investigated. METHODS: Three different titanium screws(cortical lateral mass screw, cancellous lateral mass screw and cervical vertebral body screw) were inserted into the synthetic cancellous material and then extracted axially at a rate of 2.4mm/min using Instron(Model TT-D, Canton, MA). Each set of screws was inserted and pulled out three times. There were six screws in each group. The insertional torque was measured with a torque wrench during insertion. Pullout strength was recorded with a digital oscilloscope. RESULTS: The mean pullout force measurements for the cortical lateral mass screws(185.66N+/-42.60, 167.10N+/-27.01 and 162.52 N+/-23.83 for first, second and third pullout respectively: p=0.03) and the cervical vertebral body screws(386.0N+/-24.1, 360.2N+/-17.5 and 330.9N+/-16.7: p=0.0024) showed consecutive decrease in pullout resistance after each pullout, whereas the cancellous lateral mass screws did not(194.00N+/-36.47, 219.24N+/-26.58 and 199.49N(36.63: p=0.24). The SEM after insertion and pullout three times showed a blunting in the tip of the screw pitch and a smearing of the screw surface. CONCLUSIONS: Repetitive screw insertion and pullout resulted in the decrease of pullout resistance in certain screws possibly caused by blunting the screw tip. This means screw tips suffer deformations during either repeated insertion or pullout. Thus, the screws that have been inserted should not be used for the final construct.
Elasticity ; Titanium ; Torque