Biomechanical evaluation of lumbar pedicle screws in spondylolytic vertebrae: comparison of fixation strength between the traditional trajectory and a cortical bone trajectory.

@article{Matsukawa2016BiomechanicalEO,
  title={Biomechanical evaluation of lumbar pedicle screws in spondylolytic vertebrae: comparison of fixation strength between the traditional trajectory and a cortical bone trajectory.},
  author={Keitaro Matsukawa and Yoshiyuki Yato and Hideaki Imabayashi and Naobumi Hosogane and Takashi Asazuma and Kazuhiro Chiba},
  journal={Journal of neurosurgery. Spine},
  year={2016},
  volume={24 6},
  pages={
          910-5
        }
}
OBJECTIVE In the management of isthmic spondylolisthesis, the pedicle screw system is widely accepted surgical strategy; however, there are few reports on the biomechanical behavior of pedicle screws in spondylolytic vertebrae. The purpose of the present study was to compare fixation strength between pedicle screws inserted through the traditional trajectory (TT) and those inserted through a cortical bone trajectory (CBT) in spondylolytic vertebrae by computational simulation. METHODS Finite… 
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Background Citations
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Citation Type

Biomechanical Evaluation of the Transcortical and Transpedicular Trajectories for Pedicle Screw Insertion in Thoracolumbar Fracture Fixation for Ankylosing Spondylitis
TLDR
The TPS technique provides better biomechanical strength under axial, rotational, flexion/extension, and lateral flexion loading than does the CBT technique.
Cortical Bone Trajectory Pedicle Screw Fixation in Surgical Treatment of Monosegmental Pyogenic Lumbar Spondylodiskitis.
TLDR
In monosegmental lumbar spondylodiskitis, posterior stabilization of the anterior strut bone graft by CBTPS and CPS was comparable via the radiographic parameter of segmental lordosis or deformity angle.
Biomechanical evaluation of four different posterior instrumentation techniques for single-level transforaminal lumbar interbody fusion: a finite element analysis.
TLDR
TT offered the highest fixation strength and lowest implant stress, followed by UCBT-TFS and CBT, while UCBT was the least stable and resulted in increased stress of the screws and cages.
Lumbar pedicle screw fixation with cortical bone trajectory: A review from anatomical and biomechanical standpoints
TLDR
The features of CBT, which enhance screw fixation with limited surgical exposure, have attracted the interest of surgeons as a new minimally invasive method for spinal fusion.
Alternatives to Traditional Pedicle Screws for Posterior Fixation of the Degenerative Lumbar Spine.
TLDR
CBT and non-pedicular fixation may be preferred in certain lumbar degenerative cases, particularly among patients with osteoporosis, and have been shown to significantly improve fusion rates and clinical outcomes compared with stand-alone anteriorlumbar interbody fusion.
Cortical Trajectory Screw Fixation in Lumbar Spine Surgery: A Review of the Existing Literature.
TLDR
Most studies compared CBT and PS fixation, and the CBT screw fixation method showed better or similar outcomes; however, these advantages have not been proven in clinical/radiological and biomechanical studies.
Traditional and cortical trajectory screws of static and dynamic lumbar fixation- a finite element study
TLDR
Modeling the effects of TT and CBT fixation in a full lumbosacral model suggest that dynamic TT provide slightly superior stability compared with dynamic CBT especially in bending and rotation.
Biomechanical Study Trajectories in Yorkshire Porcine Lumbar Spines: A Screw, Cortical Infero-Superior, and Cortical Supero-Inferior Pull-Out Strength Comparison Among Conventional Pedicle
TLDR
The trajectory of the screws within the lumbar spine seemed to have an impact in pull-out strength, although not statistically significant, and cortical infero-superior and supero-inferior trajectories showed no statistical significance.
Pull-Out Strength Comparison Among Conventional Pedicle Screw, Cortical Infero-Superior, and Cortical Supero-Inferior Trajectories in Yorkshire Porcine Lumbar Spines: A Biomechanical Study
TLDR
The trajectory of the screws within the lumbar spine seemed to have an impact in pull-out strength, although not statistically significant, and Cortical bone engagement using the novel trajectories may increase pull- out strength of pedicle screws.
Minimally invasive lumbar pedicle screw fixation using cortical bone trajectory – Screw accuracy, complications, and learning curve in 100 screw placements
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References

SHOWING 1-10 OF 27 REFERENCES
Biomechanical evaluation of the fixation strength of lumbar pedicle screws using cortical bone trajectory: a finite element study.
TLDR
CBT demonstrated superior fixation strength for each individual screw and sufficient stiffness in flexion and extension within a construct and vertebral fixation strength of the construct was significantly correlated with bone mineral density of the femoral neck and the POS of a single screw.
Evaluation of the Fixation Strength of Pedicle Screws Using Cortical Bone Trajectory: What Is the Ideal Trajectory for Optimal Fixation?
TLDR
Investigating factors contributing to the fixation strength of CBT screws and to clarify the ideal cortical trajectory for lumbar fusion showed that bone mineral density of the femoral neck, screw length within the lamina, and cephalad angle were significant independent factors affecting torque.
Comparison of Pedicle Screw Fixation Strength Among Different Transpedicular Trajectories: A Finite Element Study
Study Design: Comparative biomechanical study by finite element (FE) method. Objective: To investigate the pullout strength of pedicle screws using different insertional trajectories. Summary of
Cortical bone trajectory for lumbar pedicle screws.
Pedicle screw fixation for isthmic spondylolisthesis: does posterior lumbar interbody fusion improve outcome over posterolateral fusion?
TLDR
The authors' findings support the view that an interbody fusion confers superior mechanical strength to the spinal construct; when posterolateral fusion is the sole intervention, progressive loss of the extreme correction can be expected.
In Vivo Analysis of Insertional Torque During Pedicle Screwing Using Cortical Bone Trajectory Technique
TLDR
The insertional torque of pedicle screws using the cortical bone trajectory (CBT) was measured in vivo and was about 1.7 times higher than the traditional technique, and positive linear correlations between maximuminsertional torque and bone mineral density were found.
Morphometric Measurement of Cortical Bone Trajectory for Lumbar Pedicle Screw Insertion Using Computed Tomography
TLDR
The morphology of the pedicle, such as shape and pedicle axis angle, differed over the lumbar levels, but there were no significant differences between each level of the lateral and cephalad angles.
Caudo-cephalad loading of pedicle screws: mechanisms of loosening and methods of augmentation.
The mechanism of failure and the effect of augmentation of single pedicle screws subjected to caudo-cephalad loads applied at the screw head were investigated. In each of 10 lumbar vertebrae, Steffee
Structural Characteristics of the Pedicle and Its Role in Screw Stability
TLDR
The pedicle was denser in the subcortical bone, in which the threads of the screw engage, than in trabecular bone, and bone mineral density was not as thick even in the outer layer in osteoporotic subjects.
Increase of pullout strength of spinal pedicle screws with conical core: Biomechanical tests and finite element analyses
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