Research Study

Adjustable lordotic expandable spacers: how do they compare to traditional static spacers in lateral lumbar interbody fusion?

Li et al. J Spine 9(6):459, 2020.

Study | Summary Sheet

A radiographic analysis of the use of banana-shaped articulating interbody spacers in lumbar spine fusion: retrospective design

Russo et al. Interdiscip Neurosurg 23 (2021) 100918, 2020.

Study | Summary Sheet

Two-year clinical and radiographic outcomes of expandable interbody spacers following minimally invasive transforaminal lumbar interbody fusion: a prospective study

Kim et al. Int J Surg 14(4):518-526, 2020.

Study | Summary Sheet

Long-term results comparing cervical disc arthroplasty to anterior cervical discectomy and fusion: a systematic review and meta-analysis of randomized controlled trials

Wang et al. Orthop Surg 12(1):16-30, 2020.

Cervical disc arthroplasty versus anterior cervical discectomy and fusion: a meta-analysis of rates of adjacent-level surgery to 7-year follow-up

Badhiwala et al. J Spine Surg 6(1):217-232, 2020.

Study | Summary Sheet

Minimally invasive sacroiliac joint fusion using a novel hydroxyapatite-coated screw system improves functional outcomes in patients with sacroiliitis at two year follow-up

Mohit et al. Interdisc Neurosurg 22:100834, 2020.

Study | Summary Sheet

The role of sagittal alignment in predicting major failure of lumbopelvic instrumentation – a biomechanical validation of lumbopelvic failure classification

Cho et al. Spine Deform 8(4):561-568, 2020.

Transfacet minimally invasive transforaminal lumbar interbody fusion with an expandable interbody device—part I: 2-dimensional operative video and technical report

Khalifeh et al. Oper Neurosurg (Hagerstown) 19(5):E473-E479, 2020.

Do facet screws provide the required stability in lumbar fixation? a biomechanical comparison of the Boucher technique and pedicular fixation in primary and circumferential fusions

Agarwala et al. Clin Biomech (Briston, Avon) 27(1):64–70, 2011.

Spinal instrumentation after complete resection of the last lumbar vertebra: an in vitro biomechanical study after L5 spondylectomy

Bartanusz et al. Spine (Phila Pa 1976) 36(13):1017–1021, 2011.

Biomechanical rigidity of an all-polyetheretherketone anterior thoracolumbar spinal reconstruction construct: an in vitro corpectomy model

Moon et al. Spine J 9(4):330–335, 2009.

Could junctional problems at the end of a long construct be addressed by providing a graduated reduction in stiffness? a biomechanical investigation

Durrani et al. Spine 37(1):E16–E22, 2012.

In vitro biomechanical study to quantify range of motion, intradiscal pressure, and facet force of 3-level dynamic stabilization constructs with decreased stiffness

Lee et al. Spine (Phila Pa 1976) 38(22):1913–1919, 2013.

A biomechanical investigation of the sacroiliac joint in the setting of lumbosacral fusion: impact of pelvic fixation versus sacroiliac joint fixation

Mushlin, et al. J Neurosurg Spine 31(4):457-618, 2019.

Summary Sheet

Biomechanical analysis of motion following sacroiliac joint fusion using lateral sacroiliac screws with or without lumbosacral instrumented fusion

Dall et al. Clin Biomech (Bristol, Avon) 68:182–189, 2019.

Summary Sheet