Yigal Mirovsky scite author profile

This study was designed to characterize the vertebral body (VB) shape, focusing on vertebral wedging, along the thoracic and lumbar spine, and to look for shape variations with relation to gender, age, and ethnicity. All thoracic and lumbar (T1-L5) dissected vertebrae of 240 individuals were measured and analyzed by age, gender, and ethnicity. A 3D digitizer was used to measure all VB lengths, heights, and widths, and their ratios were calculated. This study showed that the VB size was independent of age or ethnicity. VB left lateral wedging was found in most vertebrae of most individuals, yet systematically was absent in six vertebrae (T4, T8-T9, T11, L3-L4) with a greater tendency in females than males ( approximately 92% vs. 86%). The VB was anteriorly wedged from T1 through L2 (peak at T7), nonwedged at L3, and posteriorly wedged at L4-L5 (peak at L5). VB width decreased from T1 to T4 and then increased toward L4-L5, so that the spinal configuration in the coronal plane resembled two pyramids of opposite directions, sharing an apex at T4. The inferior VB width was significantly greater than the superior width of both the same vertebra and the adjacent lower vertebra, indicating a trapezoidal shape of the VB and an inverted trapezoidal shape of the intervertebral space. In conclusion, these findings indicate that the human vertebra, in its normal condition, maintains its external dimensions with age, independent of gender or ethnic origin. Clinical and surgical implications of the unique thoracolumbar architecture are discussed.

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Augmented reality–assisted pedicle screw insertion: a cadaveric proof-of-concept study

Molina¹,

Theodore²,

Ahmed³

et al. 2019

112

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OBJECTIVEAugmented reality (AR) is a novel technology that has the potential to increase the technical feasibility, accuracy, and safety of conventional manual and robotic computer-navigated pedicle insertion methods. Visual data are directly projected to the operator’s retina and overlaid onto the surgical field, thereby removing the requirement to shift attention to a remote display. The objective of this study was to assess the comparative accuracy of AR-assisted pedicle screw insertion in comparison to conventional pedicle screw insertion methods.METHODSFive cadaveric male torsos were instrumented bilaterally from T6 to L5 for a total of 120 inserted pedicle screws. Postprocedural CT scans were obtained, and screw insertion accuracy was graded by 2 independent neuroradiologists using both the Gertzbein scale (GS) and a combination of that scale and the Heary classification, referred to in this paper as the Heary-Gertzbein scale (HGS). Non-inferiority analysis was performed, comparing the accuracy to freehand, manual computer-navigated, and robotics-assisted computer-navigated insertion accuracy rates reported in the literature. User experience analysis was conducted via a user experience questionnaire filled out by operators after the procedures.RESULTSThe overall screw placement accuracy achieved with the AR system was 96.7% based on the HGS and 94.6% based on the GS. Insertion accuracy was non-inferior to accuracy reported for manual computer-navigated pedicle insertion based on both the GS and the HGS scores. When compared to accuracy reported for robotics-assisted computer-navigated insertion, accuracy achieved with the AR system was found to be non-inferior when assessed with the GS, but superior when assessed with the HGS. Last, accuracy results achieved with the AR system were found to be superior to results obtained with freehand insertion based on both the HGS and the GS scores. Accuracy results were not found to be inferior in any comparison. User experience analysis yielded “excellent” usability classification.CONCLUSIONSAR-assisted pedicle screw insertion is a technically feasible and accurate insertion method.

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Intermediate Screws in Short Segment Pedicular Fixation for Thoracic and Lumbar Fractures

Anekstein

Brosh

Mirovsky

2007

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To determine the effect of adding pedicle screws at the level of a burst fracture (intermediate screws) on the stiffness of a short segment pedicle fixation, an in vitro biomechanical study was carried out. Six fresh-frozen pig lumbar spine specimens were used. The flexibility of the intact specimens was examined in flexion, extension, lateral bending, and torsion. An unstable burst fracture model was created by the dropped-mass technique. The unstable spine specimens were instrumented with pedicle screws. The flexibility was tested again with and without intermediate screws. The addition of intermediate screws provided a smaller range of motion in flexion-extension (P<0.001), torsion (P<0.001), and lateral bending (P=0.014). The slopes of the load displacement curves increased in flexion (P<0.001), extension (P=0.003), lateral bending (P=0.003), and torsion (P=0.006), signifying a decrease in flexibility. The addition of intermediate screws at the level of a burst fracture significantly increases the stiffness of a short segment pedicular fixation.

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Accuracy and Safety of Thoracic Pedicle Screw Placement in Spinal Deformities

Smorgick¹,

Millgram²,

Anekstein³

et al. 2005

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Anterior decompression combined with corpectomies and discectomies in the management of multilevel cervical myelopathy: a hybrid decompression and fixation technique

Ashkenazi

Smorgick²,

Rand³

et al. 2005

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Object. The authors retrospectively evaluated the safety and efficacy of a decompression and fixation technique in the treatment of patients with multilevel cervical spondylotic myelopathy (CSM). Methods. The authors describe the “hybrid decompression fixation” technique, a procedure involving a combination of corpectomies and discectomies to preserve a vertebra intact within the area of the decompression, thus augmenting mechanical stability. The authors retrospectively reviewed outcomes in 25 patients with multilevel CSM in whom the hybrid technique was performed between 1999 and 2003. Twelve patients underwent a single-level corpectomy and three-level discectomies. In 13 patients a two-level corpectomy and adjacent four-level discectomies were conducted, leaving a vertebral bridge the middle. All patients underwent fusion involving placement of disc and vertebral body cages filled with autogenous local bone and supplemental anterior dynamic plate fixation. The mean preoperative Nurick grade was 3 and improvement in status was reflected by a postoperative decrease to 2.6 (p < 0.05). In one patient neurological deterioration was demonstrated. At the end of the follow-up period (mean 29 months) radiography revealed evidence of osseous fusion in 24 patients; fusion status could not be determined in one patient. No evidence of late-onset instrumentation-related failure was observed in any of the 25 patients. Conclusions. The authors found the hybrid technique to be safe and efficient for anterior decompression in patients with multilevel CSM. The use of this technique obviates the need for staged circumferential procedures.

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Yigal Mirovsky

Vertebral body shape variation in the thoracic and lumbar spine: Characterization of its asymmetry and wedging

Augmented reality–assisted pedicle screw insertion: a cadaveric proof-of-concept study

Intermediate Screws in Short Segment Pedicular Fixation for Thoracic and Lumbar Fractures

Accuracy and Safety of Thoracic Pedicle Screw Placement in Spinal Deformities

Anterior decompression combined with corpectomies and discectomies in the management of multilevel cervical myelopathy: a hybrid decompression and fixation technique

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