Abstract

PurposePedicle screw loosening is a common and significant complication after posterior spinal instrumentation, particularly in osteoporosis. Radiolucent carbon fiber-reinforced polyetheretherketone (CF/PEEK) pedicle screws have been developed recently to overcome drawbacks of conventional metallic screws, such as metal-induced imaging artifacts and interference with postoperative radiotherapy. Beyond radiolucency, CF/PEEK may also be advantageous over standard titanium in terms of pedicle screw loosening due to its unique material properties. However, screw anchorage and loosening of CF/PEEK pedicle screws have not been evaluated yet. The aim of this biomechanical study therefore was to evaluate whether the use of this alternative nonmetallic pedicle screw material affects screw loosening. The hypotheses tested were that (1) nonmetallic CF/PEEK pedicle screws resist an equal or higher number of load cycles until loosening than standard titanium screws and that (2) PMMA cement augmentation further increases the number of load cycles until loosening of CF/PEEK screws.MethodsIn the first part of the study, left and right pedicles of ten cadaveric lumbar vertebrae (BMD 70.8 mg/cm3 ± 14.5) were randomly instrumented with either CF/PEEK or standard titanium pedicle screws. In the second part, left and right pedicles of ten vertebrae (BMD 56.3 mg/cm3 ± 15.8) were randomly instrumented with either PMMA-augmented or nonaugmented CF/PEEK pedicle screws. Each pedicle screw was subjected to cyclic cranio-caudal loading (initial load ranging from − 50 N to + 50 N) with stepwise increasing compressive loads (5 N every 100 cycles) until loosening or a maximum of 10,000 cycles. Angular screw motion (“screw toggling”) within the vertebra was measured with a 3D motion analysis system every 100 cycles and by stress fluoroscopy every 500 cycles.ResultsThe nonmetallic CF/PEEK pedicle screws resisted a similar number of load cycles until loosening as the contralateral standard titanium screws (3701 ± 1228 vs. 3751 ± 1614 load cycles, p = 0.89). PMMA cement augmentation of CF/PEEK pedicle screws furthermore significantly increased the mean number of load cycles until loosening by 1.63-fold (5100 ± 1933 in augmented vs. 3130 ± 2132 in nonaugmented CF/PEEK screws, p = 0.015). In addition, angular screw motion assessed by stress fluoroscopy was significantly smaller in augmented than in nonaugmented CF/PEEK screws before as well as after failure.ConclusionsUsing nonmetallic CF/PEEK instead of standard titanium as pedicle screw material did not affect screw loosening in the chosen test setup, whereas cement augmentation enhanced screw anchorage of CF/PEEK screws. While comparable to titanium screws in terms of screw loosening, radiolucent CF/PEEK pedicle screws offer the significant advantage of not interfering with postoperative imaging and radiotherapy.Graphical abstractThese slides can be retrieved under Electronic Supplementary Material.

Highlights

  • Metal-induced artifacts significantly impede postoperative imaging of the spine [1, 2]

  • The nonmetallic carbon fiber-reinforced polyetheretherketone (CF/PEEK) pedicle screws resisted a similar number of load cycles until loosening as the contralateral titanium screws [3701 ± 1228 vs. 3751 ± 1614 load cycles, p = 0.89]

  • Angular screw motion assessed by stress fluoroscopy did not significantly differ at 1000 and 2000 cycles, but was significantly smaller in augmented than in nonaugmented CF/PEEK screws at last measurement before (2.3° ± 1.1° vs. 4.2° ± 1.3°; p = 0.009) as well as at first measurement after failure (10.5° ± 3.2° vs. 17.1° ± 2.9°; p = 0.022). The results from this biomechanical study show that (1) the nonmetallic CF/PEEK pedicle screws resisted a similar number of load cycles until loosening as standard titanium screws and that (2) PMMA cement augmentation of CF/ PEEK screws significantly increases the number of load cycles until loosening

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Summary

Introduction

Metal-induced artifacts significantly impede postoperative imaging of the spine [1, 2] To overcome this shortcoming of conventional metallic pedicle screws, nonmetallic highstrength carbon fiber-reinforced polyetheretherketone (CF/ PEEK) pedicle screws have been developed. CF/PEEK is radiolucent and nonmagnetizable, and allows to minimize imaging artifacts in CT and MRI imaging [3,4,5]. This feature greatly facilitates postoperative radiological assessment of fusion and adjacent segment disease, postoperative evaluation of neural structures in case of newly developing neurological symptoms as well as radiological follow-up of spinal tumors after spinal stabilization. To the authors’ best knowledge, screw anchorage and loosening of CF/PEEK screws— critical prerequisites for successful clinical application— have not been biomechanically evaluated yet

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