Research Study

Ensuring navigation integrity using robotics in spine surgery

Crawford et al. J Robot Surg 14(1):177-183, 2020.

Pedicle screw accuracy in clinical utilization of minimally invasive navigated robot assisted spine surgery

Vardiman, et al. J Robot Surg 14(3):409-413, 2020.

Indirect decompression and vertebral body endplate strength after lateral interbody spacer impaction: cadaveric and foam-block models

Kwon et al. J Neurosurg Spine 24(5):727–733, 2016.

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Robot-assisted pedicle screw placement: learning curve experience

Siddiqui et al. World Neurosurg 130:E417–E422, 2019.

Navigated robotic assistance improves pedicle screw accuracy in minimally invasive surgery of the lumbosacral spine: 600 pedicle screws in a single institution

Wallace et al. Int J Med Robot 16(1):e2054, 2020.

Minimally invasive transforaminal lumbar interbody fusion with expandable versus static interbody devices: radiographic assessment of sagittal segmental and pelvic parameters

Hawasli et al. Neurosurg Focus 43 (2):E10, 2017.

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Assessment of radiographic and clinical outcomes of an articulating expandable interbody cage in minimally invasive transforaminal lumbar interbody fusion for spondylolisthesis

Massie et al. Neurosurg Focus 44 (1):E8, 2018.

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Minimally invasive transforaminal lumbar interbody fusion using expandable technology: a clinical and radiographic analysis of 50 patients

Kim et al. World Neurosurg 90:228–235, 2016.

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Clinical and radiographic analysis of expandable versus static lateral lumbar interbody fusion devices with two-year follow-up

Frisch et al. J Spine Surg 4(1):62–71, 2018.

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A clinical comparison of anterior cervical plates versus stand-alone intervertebral fusion devices for single anterior cervical discectomy and fusion procedures

Panchal et al. World Neurosurg 99:630–637, 2017.

Summary Sheet

A novel lateral titanium expandable interbody spacer with integrated plate restores anterior and posterior disc height and intervertebral lordosis

Brady, et al. J Spine S8:002, 2019.

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Pedicle screw accuracy assessment in ExcelsiusGPS® robotic spine surgery: evaluation of deviation from pre-planned trajectory

Jiang et al. Chin Neurosurg J 4:23, 2018.

Evaluation of two novel integrated stand-alone spacer designs compared with anterior and anterior-posterior single-level lumbar fusion techniques: an in vitro biomechanical investigation

Kuhns et al. Asian Spine J 11(6):854–862, 2017

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Static versus expandable interbody spacers: preliminary 1-year clinical and radiographic results

Frisch et al. J Clin Neurol Neurosurg Spine 1(1):113, 2017.

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Use of a novel corrective device for correction of deformities in adolescent idiopathic scoliosis

Feeley et al. Ir J Med Sci 189(1):203-210, 2020.

Summary Sheet